![Page 1: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/1.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Amenability of operator algebras on Banachspaces, II
Volker Runde
University of Alberta
NBFAS, Leeds, June 1, 2010
![Page 2: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/2.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The finite-dimensional case
Example
Let E be a Banach space with n := dim E <∞ so that
B(E ) = K(E ) ∼= Mn.
Let G be a finite subgroup of invertible elements of Mn suchthat span G = Mn.Set
d :=1
|G |∑g∈G
g ⊗ g−1.
Thena · d = d · a (a ∈ Mn)
and ∆d = In.Hence, K(E ) = B(E ) is amenable.
![Page 3: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/3.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The finite-dimensional case
Example
Let E be a Banach space with n := dim E <∞ so that
B(E ) = K(E ) ∼= Mn.
Let G be a finite subgroup of invertible elements of Mn suchthat span G = Mn.Set
d :=1
|G |∑g∈G
g ⊗ g−1.
Thena · d = d · a (a ∈ Mn)
and ∆d = In.Hence, K(E ) = B(E ) is amenable.
![Page 4: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/4.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The finite-dimensional case
Example
Let E be a Banach space
with n := dim E <∞ so that
B(E ) = K(E ) ∼= Mn.
Let G be a finite subgroup of invertible elements of Mn suchthat span G = Mn.Set
d :=1
|G |∑g∈G
g ⊗ g−1.
Thena · d = d · a (a ∈ Mn)
and ∆d = In.Hence, K(E ) = B(E ) is amenable.
![Page 5: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/5.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The finite-dimensional case
Example
Let E be a Banach space with n := dim E <∞
so that
B(E ) = K(E ) ∼= Mn.
Let G be a finite subgroup of invertible elements of Mn suchthat span G = Mn.Set
d :=1
|G |∑g∈G
g ⊗ g−1.
Thena · d = d · a (a ∈ Mn)
and ∆d = In.Hence, K(E ) = B(E ) is amenable.
![Page 6: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/6.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The finite-dimensional case
Example
Let E be a Banach space with n := dim E <∞ so that
B(E ) = K(E ) ∼= Mn.
Let G be a finite subgroup of invertible elements of Mn suchthat span G = Mn.Set
d :=1
|G |∑g∈G
g ⊗ g−1.
Thena · d = d · a (a ∈ Mn)
and ∆d = In.Hence, K(E ) = B(E ) is amenable.
![Page 7: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/7.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The finite-dimensional case
Example
Let E be a Banach space with n := dim E <∞ so that
B(E ) = K(E ) ∼= Mn.
Let G be a finite subgroup of invertible elements of Mn
suchthat span G = Mn.Set
d :=1
|G |∑g∈G
g ⊗ g−1.
Thena · d = d · a (a ∈ Mn)
and ∆d = In.Hence, K(E ) = B(E ) is amenable.
![Page 8: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/8.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The finite-dimensional case
Example
Let E be a Banach space with n := dim E <∞ so that
B(E ) = K(E ) ∼= Mn.
Let G be a finite subgroup of invertible elements of Mn suchthat span G = Mn.
Set
d :=1
|G |∑g∈G
g ⊗ g−1.
Thena · d = d · a (a ∈ Mn)
and ∆d = In.Hence, K(E ) = B(E ) is amenable.
![Page 9: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/9.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The finite-dimensional case
Example
Let E be a Banach space with n := dim E <∞ so that
B(E ) = K(E ) ∼= Mn.
Let G be a finite subgroup of invertible elements of Mn suchthat span G = Mn.Set
d :=1
|G |∑g∈G
g ⊗ g−1.
Thena · d = d · a (a ∈ Mn)
and ∆d = In.Hence, K(E ) = B(E ) is amenable.
![Page 10: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/10.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The finite-dimensional case
Example
Let E be a Banach space with n := dim E <∞ so that
B(E ) = K(E ) ∼= Mn.
Let G be a finite subgroup of invertible elements of Mn suchthat span G = Mn.Set
d :=1
|G |∑g∈G
g ⊗ g−1.
Thena · d = d · a (a ∈ Mn)
and ∆d = In.Hence, K(E ) = B(E ) is amenable.
![Page 11: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/11.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The finite-dimensional case
Example
Let E be a Banach space with n := dim E <∞ so that
B(E ) = K(E ) ∼= Mn.
Let G be a finite subgroup of invertible elements of Mn suchthat span G = Mn.Set
d :=1
|G |∑g∈G
g ⊗ g−1.
Thena · d = d · a (a ∈ Mn)
and ∆d = In.
Hence, K(E ) = B(E ) is amenable.
![Page 12: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/12.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The finite-dimensional case
Example
Let E be a Banach space with n := dim E <∞ so that
B(E ) = K(E ) ∼= Mn.
Let G be a finite subgroup of invertible elements of Mn suchthat span G = Mn.Set
d :=1
|G |∑g∈G
g ⊗ g−1.
Thena · d = d · a (a ∈ Mn)
and ∆d = In.Hence, K(E ) = B(E ) is amenable.
![Page 13: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/13.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 14: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/14.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 15: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/15.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if
E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 16: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/16.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞
or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 17: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/17.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 18: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/18.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 19: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/19.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 20: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/20.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property.
Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 21: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/21.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity
if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 22: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/22.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 23: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/23.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 24: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/24.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2.
Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 25: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/25.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property,
butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 26: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/26.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t.
Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 27: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/27.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity
and is thus not amenable.
![Page 28: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/28.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Some more results
Theorem (B. E. Johnson, 1972)
K(E ) is amenable if E = `p with 1 < p <∞ or E = C(T).
Amenable Banach algebras must have bounded approximateidentities. . .
Theorem (N. Grønbæk & G. A. Willis, 1994)
Suppose that E has the approximation property. Then K(E )has a bounded approximate identity if and only if E ∗ has thebounded approximation property.
Example
Let E = `2⊗`2. Then E has the approximation property, butE ∗ = B(`2) doesn’t. Hence, K(E ) does not have a boundedapproximate identity and is thus not amenable.
![Page 29: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/29.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Finite, biorthogonal systems
Definition
A finite, biorthogonal system is a set{(xj , φk) : j , k = 1, . . . , n} ⊂ E × E ∗ such that
〈xj , φk〉 = δj ,k (j , k = 1, . . . , n).
Remark
If {(xj , φk) : j , k = 1, . . . , n} is a finite, biorthogonal system,then
θ : Mn → F(E ), [αj ,k ] 7→n∑
j ,k=1
αj ,kxj ⊗ φk
is an algebra homomorphism.
![Page 30: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/30.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Finite, biorthogonal systems
Definition
A finite, biorthogonal system is a set{(xj , φk) : j , k = 1, . . . , n} ⊂ E × E ∗ such that
〈xj , φk〉 = δj ,k (j , k = 1, . . . , n).
Remark
If {(xj , φk) : j , k = 1, . . . , n} is a finite, biorthogonal system,then
θ : Mn → F(E ), [αj ,k ] 7→n∑
j ,k=1
αj ,kxj ⊗ φk
is an algebra homomorphism.
![Page 31: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/31.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Finite, biorthogonal systems
Definition
A finite, biorthogonal system
is a set{(xj , φk) : j , k = 1, . . . , n} ⊂ E × E ∗ such that
〈xj , φk〉 = δj ,k (j , k = 1, . . . , n).
Remark
If {(xj , φk) : j , k = 1, . . . , n} is a finite, biorthogonal system,then
θ : Mn → F(E ), [αj ,k ] 7→n∑
j ,k=1
αj ,kxj ⊗ φk
is an algebra homomorphism.
![Page 32: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/32.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Finite, biorthogonal systems
Definition
A finite, biorthogonal system is a set{(xj , φk) : j , k = 1, . . . , n} ⊂ E × E ∗
such that
〈xj , φk〉 = δj ,k (j , k = 1, . . . , n).
Remark
If {(xj , φk) : j , k = 1, . . . , n} is a finite, biorthogonal system,then
θ : Mn → F(E ), [αj ,k ] 7→n∑
j ,k=1
αj ,kxj ⊗ φk
is an algebra homomorphism.
![Page 33: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/33.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Finite, biorthogonal systems
Definition
A finite, biorthogonal system is a set{(xj , φk) : j , k = 1, . . . , n} ⊂ E × E ∗ such that
〈xj , φk〉 = δj ,k (j , k = 1, . . . , n).
Remark
If {(xj , φk) : j , k = 1, . . . , n} is a finite, biorthogonal system,then
θ : Mn → F(E ), [αj ,k ] 7→n∑
j ,k=1
αj ,kxj ⊗ φk
is an algebra homomorphism.
![Page 34: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/34.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Finite, biorthogonal systems
Definition
A finite, biorthogonal system is a set{(xj , φk) : j , k = 1, . . . , n} ⊂ E × E ∗ such that
〈xj , φk〉 = δj ,k (j , k = 1, . . . , n).
Remark
If {(xj , φk) : j , k = 1, . . . , n} is a finite, biorthogonal system,then
θ : Mn → F(E ), [αj ,k ] 7→n∑
j ,k=1
αj ,kxj ⊗ φk
is an algebra homomorphism.
![Page 35: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/35.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Finite, biorthogonal systems
Definition
A finite, biorthogonal system is a set{(xj , φk) : j , k = 1, . . . , n} ⊂ E × E ∗ such that
〈xj , φk〉 = δj ,k (j , k = 1, . . . , n).
Remark
If {(xj , φk) : j , k = 1, . . . , n} is a finite, biorthogonal system,
then
θ : Mn → F(E ), [αj ,k ] 7→n∑
j ,k=1
αj ,kxj ⊗ φk
is an algebra homomorphism.
![Page 36: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/36.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Finite, biorthogonal systems
Definition
A finite, biorthogonal system is a set{(xj , φk) : j , k = 1, . . . , n} ⊂ E × E ∗ such that
〈xj , φk〉 = δj ,k (j , k = 1, . . . , n).
Remark
If {(xj , φk) : j , k = 1, . . . , n} is a finite, biorthogonal system,then
θ : Mn → F(E ), [αj ,k ] 7→n∑
j ,k=1
αj ,kxj ⊗ φk
is an algebra homomorphism.
![Page 37: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/37.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Finite, biorthogonal systems
Definition
A finite, biorthogonal system is a set{(xj , φk) : j , k = 1, . . . , n} ⊂ E × E ∗ such that
〈xj , φk〉 = δj ,k (j , k = 1, . . . , n).
Remark
If {(xj , φk) : j , k = 1, . . . , n} is a finite, biorthogonal system,then
θ : Mn → F(E ), [αj ,k ] 7→n∑
j ,k=1
αj ,kxj ⊗ φk
is an algebra homomorphism.
![Page 38: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/38.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E ) with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 39: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/39.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E ) with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 40: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/40.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if
there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E ) with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 41: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/41.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systems
with corresponding homomorphisms θλ : Mnλ→ F(E ) with the
following properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 42: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/42.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E )
with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 43: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/43.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E ) with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 44: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/44.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E ) with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 45: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/45.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E ) with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 46: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/46.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E ) with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ,
there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 47: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/47.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E ) with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ
of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 48: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/48.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E ) with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 49: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/49.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E ) with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλ
such that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 50: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/50.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A)
Definition (N. Grønbæk, BEJ, & G. A. Willis, 1994)
We say that E has property (A) if there is a net({(xj ,λ, φk,λ) : j , k = 1, . . . , nλ})λ of finite biorthogonal systemswith corresponding homomorphisms θλ : Mnλ
→ F(E ) with thefollowing properties:
1 θλ(Inλ)→ idE uniformly on compacts;
2 θλ(Inλ)∗ → idE∗ uniformly on compacts;
3 for each λ, there is a finite group Gλ of invertible elementsof Mnλ
spanning Mnλsuch that
supλ
maxg∈Gλ
‖θλ(g)‖ <∞.
![Page 51: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/51.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 52: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/52.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 53: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/53.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s
to construct an approximatediagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 54: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/54.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 55: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/55.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 56: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/56.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A).
Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 57: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/57.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 58: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/58.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 59: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/59.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A)
for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 60: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/60.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞
and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 61: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/61.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 62: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/62.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A)
for each compact K , as doestherefore L∞(µ) for each µ.
![Page 63: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/63.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K ,
as doestherefore L∞(µ) for each µ.
![Page 64: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/64.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Property (A) and the amenability of K(E )
The idea behind (A)
Use the diagonals of the Mnλ’s to construct an approximate
diagonal for K(E ).
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E has property (A). Then K(E ) is amenable.
Examples
1 Lp(µ) has property (A) for all 1 ≤ p <∞ and all µ.
2 C(K ) has property (A) for each compact K , as doestherefore L∞(µ) for each µ.
![Page 65: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/65.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 66: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/66.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 67: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/67.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E
such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 68: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/68.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 69: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/69.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 70: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/70.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 71: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/71.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 72: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/72.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 73: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/73.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A).
Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 74: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/74.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 75: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/75.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 76: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/76.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E
such thatB(E ) is amenable.
![Page 77: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/77.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
The “scalar plus compact” problem
Question
Is there an infinite-dimensional Banach space E such thatB(E ) = K(E ) + C idE ?
Theorem (S. A. Argyros & R. G. Haydon, 2009)
There is a Banach space E such that B(E ) = K(E ) + C idE
and E ∗ = `1.
Theorem (N. Grønbæk, BEJ, & G. A. Willis, 1994)
Suppose that E ∗ has property (A). Then so has E .
Corollary
There is an infinite-dimensional Banach space E such thatB(E ) is amenable.
![Page 78: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/78.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, I
Theorem (G. A. Willis, unpublished)
Let p, q ∈ (1,∞) be such that p 6= q. Then B(`p ⊕ `q) is notamenable.
Ingredients
1 A quotient of an amenable Banach algebra is againamenable.
2 Every complemented closed ideal of an amenable Banachalgebra is amenable.
3 Every amenable Banach algebra has a boundedapproximate identity.
4 Pitt’s Theorem. If p > q, then B(`p, `q) = K(`p, `q).
![Page 79: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/79.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, I
Theorem (G. A. Willis, unpublished)
Let p, q ∈ (1,∞) be such that p 6= q. Then B(`p ⊕ `q) is notamenable.
Ingredients
1 A quotient of an amenable Banach algebra is againamenable.
2 Every complemented closed ideal of an amenable Banachalgebra is amenable.
3 Every amenable Banach algebra has a boundedapproximate identity.
4 Pitt’s Theorem. If p > q, then B(`p, `q) = K(`p, `q).
![Page 80: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/80.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, I
Theorem (G. A. Willis, unpublished)
Let p, q ∈ (1,∞) be such that p 6= q.
Then B(`p ⊕ `q) is notamenable.
Ingredients
1 A quotient of an amenable Banach algebra is againamenable.
2 Every complemented closed ideal of an amenable Banachalgebra is amenable.
3 Every amenable Banach algebra has a boundedapproximate identity.
4 Pitt’s Theorem. If p > q, then B(`p, `q) = K(`p, `q).
![Page 81: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/81.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, I
Theorem (G. A. Willis, unpublished)
Let p, q ∈ (1,∞) be such that p 6= q. Then B(`p ⊕ `q) is notamenable.
Ingredients
1 A quotient of an amenable Banach algebra is againamenable.
2 Every complemented closed ideal of an amenable Banachalgebra is amenable.
3 Every amenable Banach algebra has a boundedapproximate identity.
4 Pitt’s Theorem. If p > q, then B(`p, `q) = K(`p, `q).
![Page 82: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/82.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, I
Theorem (G. A. Willis, unpublished)
Let p, q ∈ (1,∞) be such that p 6= q. Then B(`p ⊕ `q) is notamenable.
Ingredients
1 A quotient of an amenable Banach algebra is againamenable.
2 Every complemented closed ideal of an amenable Banachalgebra is amenable.
3 Every amenable Banach algebra has a boundedapproximate identity.
4 Pitt’s Theorem. If p > q, then B(`p, `q) = K(`p, `q).
![Page 83: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/83.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, I
Theorem (G. A. Willis, unpublished)
Let p, q ∈ (1,∞) be such that p 6= q. Then B(`p ⊕ `q) is notamenable.
Ingredients
1 A quotient of an amenable Banach algebra is againamenable.
2 Every complemented closed ideal of an amenable Banachalgebra is amenable.
3 Every amenable Banach algebra has a boundedapproximate identity.
4 Pitt’s Theorem. If p > q, then B(`p, `q) = K(`p, `q).
![Page 84: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/84.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, I
Theorem (G. A. Willis, unpublished)
Let p, q ∈ (1,∞) be such that p 6= q. Then B(`p ⊕ `q) is notamenable.
Ingredients
1 A quotient of an amenable Banach algebra is againamenable.
2 Every complemented closed ideal of an amenable Banachalgebra is amenable.
3 Every amenable Banach algebra has a boundedapproximate identity.
4 Pitt’s Theorem. If p > q, then B(`p, `q) = K(`p, `q).
![Page 85: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/85.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, I
Theorem (G. A. Willis, unpublished)
Let p, q ∈ (1,∞) be such that p 6= q. Then B(`p ⊕ `q) is notamenable.
Ingredients
1 A quotient of an amenable Banach algebra is againamenable.
2 Every complemented closed ideal of an amenable Banachalgebra is amenable.
3 Every amenable Banach algebra has a boundedapproximate identity.
4 Pitt’s Theorem. If p > q, then B(`p, `q) = K(`p, `q).
![Page 86: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/86.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, I
Theorem (G. A. Willis, unpublished)
Let p, q ∈ (1,∞) be such that p 6= q. Then B(`p ⊕ `q) is notamenable.
Ingredients
1 A quotient of an amenable Banach algebra is againamenable.
2 Every complemented closed ideal of an amenable Banachalgebra is amenable.
3 Every amenable Banach algebra has a boundedapproximate identity.
4 Pitt’s Theorem.
If p > q, then B(`p, `q) = K(`p, `q).
![Page 87: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/87.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, I
Theorem (G. A. Willis, unpublished)
Let p, q ∈ (1,∞) be such that p 6= q. Then B(`p ⊕ `q) is notamenable.
Ingredients
1 A quotient of an amenable Banach algebra is againamenable.
2 Every complemented closed ideal of an amenable Banachalgebra is amenable.
3 Every amenable Banach algebra has a boundedapproximate identity.
4 Pitt’s Theorem. If p > q, then B(`p, `q) = K(`p, `q).
![Page 88: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/88.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q. Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)
B(`q)
]and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable, and thus has a BAI. But I 2 = {0}. . .
![Page 89: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/89.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q. Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)
B(`q)
]and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable, and thus has a BAI. But I 2 = {0}. . .
![Page 90: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/90.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q.
Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)
B(`q)
]and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable, and thus has a BAI. But I 2 = {0}. . .
![Page 91: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/91.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q. Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)B(`p, `q) B(`q)
]
and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable, and thus has a BAI. But I 2 = {0}. . .
![Page 92: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/92.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q. Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)K(`p, `q) B(`q)
]
and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable, and thus has a BAI. But I 2 = {0}. . .
![Page 93: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/93.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q. Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)K(`p, `q) B(`q)
]and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable, and thus has a BAI. But I 2 = {0}. . .
![Page 94: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/94.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q. Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)K(`p, `q) B(`q)
]and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable, and thus has a BAI. But I 2 = {0}. . .
![Page 95: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/95.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q. Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)K(`p, `q) B(`q)
]and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable, and thus has a BAI. But I 2 = {0}. . .
![Page 96: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/96.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q. Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)K(`p, `q) B(`q)
]and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable,
and thus has a BAI. But I 2 = {0}. . .
![Page 97: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/97.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q. Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)K(`p, `q) B(`q)
]and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable, and thus has a BAI.
But I 2 = {0}. . .
![Page 98: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/98.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q. Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)K(`p, `q) B(`q)
]and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable, and thus has a BAI. But I 2 = {0}. . .
![Page 99: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/99.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p ⊕ `q) for p 6= q, II
Proof.
Suppose that p > q. Note that
B(`p ⊕ `q) =
[B(`p) B(`q, `p)K(`p, `q) B(`q)
]and
K(`p ⊕ `q) =
[K(`p) K(`q, `p)K(`p, `q) K(`q)
],
so that
C(`p ⊕ `q) =
[C(`p) ∗
0 C(`q)
].
Then I :=
[0 ∗0 0
]6= {0} is a complemented ideal of C(`p ⊕ `q),
thus is amenable, and thus has a BAI. But I 2 = {0}. . .
![Page 100: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/100.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p = 1, 2,∞
Theorem (C. J. Read, <2006)
B(`1) is not amenable.
Progress since
1 Simplification of Read’s proof by G. Pisier, 2004.
2 Simultaneous proof for the non-amenability of B(`p) forp = 1, 2,∞ by N. Ozawa, 2006.
Question
Is B(`p) amenable for any p ∈ (1,∞) \ {2}?
![Page 101: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/101.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p = 1, 2,∞
Theorem (C. J. Read, <2006)
B(`1) is not amenable.
Progress since
1 Simplification of Read’s proof by G. Pisier, 2004.
2 Simultaneous proof for the non-amenability of B(`p) forp = 1, 2,∞ by N. Ozawa, 2006.
Question
Is B(`p) amenable for any p ∈ (1,∞) \ {2}?
![Page 102: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/102.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p = 1, 2,∞
Theorem (C. J. Read, <2006)
B(`1) is not amenable.
Progress since
1 Simplification of Read’s proof by G. Pisier, 2004.
2 Simultaneous proof for the non-amenability of B(`p) forp = 1, 2,∞ by N. Ozawa, 2006.
Question
Is B(`p) amenable for any p ∈ (1,∞) \ {2}?
![Page 103: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/103.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p = 1, 2,∞
Theorem (C. J. Read, <2006)
B(`1) is not amenable.
Progress since
1 Simplification of Read’s proof by G. Pisier, 2004.
2 Simultaneous proof for the non-amenability of B(`p) forp = 1, 2,∞ by N. Ozawa, 2006.
Question
Is B(`p) amenable for any p ∈ (1,∞) \ {2}?
![Page 104: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/104.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p = 1, 2,∞
Theorem (C. J. Read, <2006)
B(`1) is not amenable.
Progress since
1 Simplification of Read’s proof by G. Pisier, 2004.
2 Simultaneous proof for the non-amenability of B(`p) forp = 1, 2,∞ by N. Ozawa, 2006.
Question
Is B(`p) amenable for any p ∈ (1,∞) \ {2}?
![Page 105: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/105.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p = 1, 2,∞
Theorem (C. J. Read, <2006)
B(`1) is not amenable.
Progress since
1 Simplification of Read’s proof by G. Pisier, 2004.
2 Simultaneous proof for the non-amenability of B(`p) forp = 1, 2,∞ by N. Ozawa, 2006.
Question
Is B(`p) amenable for any p ∈ (1,∞) \ {2}?
![Page 106: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/106.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p = 1, 2,∞
Theorem (C. J. Read, <2006)
B(`1) is not amenable.
Progress since
1 Simplification of Read’s proof by G. Pisier, 2004.
2 Simultaneous proof for the non-amenability of B(`p) forp = 1, 2,∞ by N. Ozawa, 2006.
Question
Is B(`p) amenable for any p ∈ (1,∞) \ {2}?
![Page 107: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/107.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p = 1, 2,∞
Theorem (C. J. Read, <2006)
B(`1) is not amenable.
Progress since
1 Simplification of Read’s proof by G. Pisier, 2004.
2 Simultaneous proof for the non-amenability of B(`p) forp = 1, 2,∞ by N. Ozawa, 2006.
Question
Is B(`p) amenable
for any p ∈ (1,∞) \ {2}?
![Page 108: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/108.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p = 1, 2,∞
Theorem (C. J. Read, <2006)
B(`1) is not amenable.
Progress since
1 Simplification of Read’s proof by G. Pisier, 2004.
2 Simultaneous proof for the non-amenability of B(`p) forp = 1, 2,∞ by N. Ozawa, 2006.
Question
Is B(`p) amenable for any p ∈ (1,∞) \ {2}?
![Page 109: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/109.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then soare the Banach algebras `∞(B(`p)) and `∞(K(`p)).
![Page 110: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/110.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then soare the Banach algebras `∞(B(`p)) and `∞(K(`p)).
![Page 111: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/111.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then soare the Banach algebras `∞(B(`p)) and `∞(K(`p)).
![Page 112: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/112.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then soare the Banach algebras `∞(B(`p)) and `∞(K(`p)).
![Page 113: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/113.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then soare the Banach algebras `∞(B(`p)) and `∞(K(`p)).
![Page 114: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/114.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then soare the Banach algebras `∞(B(`p)) and `∞(K(`p)).
![Page 115: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/115.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then soare the Banach algebras `∞(B(`p)) and `∞(K(`p)).
![Page 116: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/116.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then soare the Banach algebras `∞(B(`p)) and `∞(K(`p)).
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Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then soare the Banach algebras `∞(B(`p)) and `∞(K(`p)).
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Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞).
Then soare the Banach algebras `∞(B(`p)) and `∞(K(`p)).
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Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then soare the Banach algebras `∞(B(`p))
and `∞(K(`p)).
![Page 120: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/120.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
What if B(`p) were amenable?
Theorem (M. Daws & VR, 2008)
The following are equivalent for a Banach space E andp ∈ [1,∞):
1 B(`p(E )) is amenable;
2 `∞(B(`p(E ))) is amenable.
Idea
`p(`p(E )) ∼= `p(E )
`∞(B(`p(E ))) ∼= block diagonal matrices in B(`p(`p(E )))
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then soare the Banach algebras `∞(B(`p)) and `∞(K(`p)).
![Page 121: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/121.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 122: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/122.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 123: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/123.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1.
A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 124: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/124.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if,
for every finite-dimensional subspace X of E , thereis a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 125: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/125.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E ,
thereis a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 126: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/126.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E
withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 127: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/127.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ.
We call E an Lp-space if it is an Lpλ-space
for some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 128: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/128.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space
if it is an Lpλ-space
for some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 129: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/129.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 130: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/130.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 131: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/131.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 132: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/132.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}.
Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 133: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/133.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces,
but not isomorphic to Lp-spaces.
![Page 134: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/134.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, I
Definition (J. Lindenstrauss & A. Pe lczynski, 1968)
Let p ∈ [1,∞] and let λ ≥ 1. A Banach space E is called aLpλ-space if, for every finite-dimensional subspace X of E , there
is a finite-dimensional subspace Y ⊃ X of E withd(Y , `pdim Y ) ≤ λ. We call E an Lp-space if it is an Lp
λ-spacefor some λ ≥ 1.
Examples
1 All Banach spaces isomorphic to an Lp-space areLp-spaces.
2 Let p ∈ (1,∞) \ {2}. Then `p(`2) and `2 ⊕ `p areLp-spaces, but not isomorphic to Lp-spaces.
![Page 135: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/135.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, II
Theorem (M. Daws & VR, 2008)
Let p ∈ [1,∞]. Then one of the following is true:
1 `∞(K(E )) is amenable for every Lp-space E withdim E =∞;
2 `∞(K(E )) is not amenable for any Lp-space E withdim E =∞.
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then`∞(K(E )) is amenable for every Lp-space E with dim E =∞.
Question
Is `∞(K(`2 ⊕ `p)) amenable for any p ∈ (1,∞) \ {2}?
![Page 136: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/136.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, II
Theorem (M. Daws & VR, 2008)
Let p ∈ [1,∞]. Then one of the following is true:
1 `∞(K(E )) is amenable for every Lp-space E withdim E =∞;
2 `∞(K(E )) is not amenable for any Lp-space E withdim E =∞.
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then`∞(K(E )) is amenable for every Lp-space E with dim E =∞.
Question
Is `∞(K(`2 ⊕ `p)) amenable for any p ∈ (1,∞) \ {2}?
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Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, II
Theorem (M. Daws & VR, 2008)
Let p ∈ [1,∞]. Then one of the following is true:
1 `∞(K(E )) is amenable for every Lp-space E withdim E =∞;
2 `∞(K(E )) is not amenable for any Lp-space E withdim E =∞.
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then`∞(K(E )) is amenable for every Lp-space E with dim E =∞.
Question
Is `∞(K(`2 ⊕ `p)) amenable for any p ∈ (1,∞) \ {2}?
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Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, II
Theorem (M. Daws & VR, 2008)
Let p ∈ [1,∞]. Then one of the following is true:
1 `∞(K(E )) is amenable for every Lp-space E withdim E =∞;
2 `∞(K(E )) is not amenable for any Lp-space E withdim E =∞.
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then`∞(K(E )) is amenable for every Lp-space E with dim E =∞.
Question
Is `∞(K(`2 ⊕ `p)) amenable for any p ∈ (1,∞) \ {2}?
![Page 139: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/139.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, II
Theorem (M. Daws & VR, 2008)
Let p ∈ [1,∞]. Then one of the following is true:
1 `∞(K(E )) is amenable for every Lp-space E withdim E =∞;
2 `∞(K(E )) is not amenable for any Lp-space E withdim E =∞.
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then`∞(K(E )) is amenable for every Lp-space E with dim E =∞.
Question
Is `∞(K(`2 ⊕ `p)) amenable for any p ∈ (1,∞) \ {2}?
![Page 140: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/140.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, II
Theorem (M. Daws & VR, 2008)
Let p ∈ [1,∞]. Then one of the following is true:
1 `∞(K(E )) is amenable for every Lp-space E withdim E =∞;
2 `∞(K(E )) is not amenable for any Lp-space E withdim E =∞.
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then`∞(K(E )) is amenable for every Lp-space E with dim E =∞.
Question
Is `∞(K(`2 ⊕ `p)) amenable for any p ∈ (1,∞) \ {2}?
![Page 141: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/141.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, II
Theorem (M. Daws & VR, 2008)
Let p ∈ [1,∞]. Then one of the following is true:
1 `∞(K(E )) is amenable for every Lp-space E withdim E =∞;
2 `∞(K(E )) is not amenable for any Lp-space E withdim E =∞.
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞).
Then`∞(K(E )) is amenable for every Lp-space E with dim E =∞.
Question
Is `∞(K(`2 ⊕ `p)) amenable for any p ∈ (1,∞) \ {2}?
![Page 142: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/142.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, II
Theorem (M. Daws & VR, 2008)
Let p ∈ [1,∞]. Then one of the following is true:
1 `∞(K(E )) is amenable for every Lp-space E withdim E =∞;
2 `∞(K(E )) is not amenable for any Lp-space E withdim E =∞.
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then`∞(K(E )) is amenable
for every Lp-space E with dim E =∞.
Question
Is `∞(K(`2 ⊕ `p)) amenable for any p ∈ (1,∞) \ {2}?
![Page 143: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/143.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, II
Theorem (M. Daws & VR, 2008)
Let p ∈ [1,∞]. Then one of the following is true:
1 `∞(K(E )) is amenable for every Lp-space E withdim E =∞;
2 `∞(K(E )) is not amenable for any Lp-space E withdim E =∞.
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then`∞(K(E )) is amenable for every Lp-space E with dim E =∞.
Question
Is `∞(K(`2 ⊕ `p)) amenable for any p ∈ (1,∞) \ {2}?
![Page 144: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/144.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, II
Theorem (M. Daws & VR, 2008)
Let p ∈ [1,∞]. Then one of the following is true:
1 `∞(K(E )) is amenable for every Lp-space E withdim E =∞;
2 `∞(K(E )) is not amenable for any Lp-space E withdim E =∞.
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then`∞(K(E )) is amenable for every Lp-space E with dim E =∞.
Question
Is `∞(K(`2 ⊕ `p)) amenable for any p ∈ (1,∞) \ {2}?
![Page 145: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/145.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Lp-spaces, II
Theorem (M. Daws & VR, 2008)
Let p ∈ [1,∞]. Then one of the following is true:
1 `∞(K(E )) is amenable for every Lp-space E withdim E =∞;
2 `∞(K(E )) is not amenable for any Lp-space E withdim E =∞.
Corollary
Suppose that B(`p) is amenable for some p ∈ [1,∞). Then`∞(K(E )) is amenable for every Lp-space E with dim E =∞.
Question
Is `∞(K(`2 ⊕ `p)) amenable for any p ∈ (1,∞) \ {2}?
![Page 146: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/146.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 147: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/147.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 148: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/148.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T )
if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 149: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/149.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0
and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 150: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/150.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G
with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 151: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/151.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty:
for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 152: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/152.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH
and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 153: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/153.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H,
there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 154: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/154.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K
such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 155: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/155.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 156: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/156.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 157: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/157.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does
SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 158: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/158.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 159: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/159.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T )
if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 160: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/160.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 161: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/161.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable,
but lack property (T ).
![Page 162: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/162.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, I
Definition
A locally compact group G has Kazhdan’s property (T ) if thereare ε > 0 and a compact set K ⊂ G with the followingproperty: for every irreducible, unitary representation π of G onH and for every unit vector ξ ∈ H, there is k ∈ K such that
‖π(k)ξ − ξ‖ > ε.
Examples
1 All compact groups have property (T ), as does SL(3,Z).
2 Amenable groups have property (T ) if and only if they arecompact.
3 F2 and SL(2,R) are not amenable, but lack property (T ).
![Page 163: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/163.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 164: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/164.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 165: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/165.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ),
it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 166: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/166.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated
byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 167: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/167.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.
Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 168: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/168.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.
Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 169: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/169.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P,
and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 170: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/170.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.
Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 171: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/171.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.
This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 172: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/172.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 173: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/173.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2
and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 174: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/174.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp))
via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 175: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/175.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 176: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/176.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,
−eλ, λ /∈ Sp.
![Page 177: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/177.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, II
The setup
Since SL(3,Z) has property (T ), it is finitely generated byg1, . . . , gm, say.Write P for the set of prime numbers.Let p ∈ P, and let Λp be the projective plane over Z/pZ.Then SL(3,Z) acts on Λp through matrix multiplication.This group action induces a unitary representationπp : SL(3,Z)→ B(`2(Λp)).
Choose Sp ⊂ Λp with |Sp| =|Λp |−1
2 and define a unitaryπp(gm+1) ∈ B(`2(Λp)) via
πp(gm+1)eλ =
{eλ, λ ∈ Sp,−eλ, λ /∈ Sp.
![Page 178: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/178.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, III
Ozawa’s Lemma
It is impossible to find, for each ε > 0, a number r ∈ N withthe following property: for each p ∈ P there areξ1,p, η1,p, . . . , ξr ,p, ηr ,p ∈ `2(Λp) such that
∑rk=1 ξk,p ⊗ ηk,p 6= 0
and∥∥∥∥∥r∑
k=1
ξj ,p ⊗ ηk,p − (πp(gj)⊗ πp(gj))(ξk,p ⊗ ηk,p)
∥∥∥∥∥`2(Λp)⊗`2(Λp)
≤ ε
∥∥∥∥∥r∑
k=1
ξk,p ⊗ ηk,p
∥∥∥∥∥`2(Λp)⊗`2(Λp)
(j = 1, . . . ,m + 1).
![Page 179: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/179.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, III
Ozawa’s Lemma
It is impossible to find, for each ε > 0, a number r ∈ N withthe following property: for each p ∈ P there areξ1,p, η1,p, . . . , ξr ,p, ηr ,p ∈ `2(Λp) such that
∑rk=1 ξk,p ⊗ ηk,p 6= 0
and∥∥∥∥∥r∑
k=1
ξj ,p ⊗ ηk,p − (πp(gj)⊗ πp(gj))(ξk,p ⊗ ηk,p)
∥∥∥∥∥`2(Λp)⊗`2(Λp)
≤ ε
∥∥∥∥∥r∑
k=1
ξk,p ⊗ ηk,p
∥∥∥∥∥`2(Λp)⊗`2(Λp)
(j = 1, . . . ,m + 1).
![Page 180: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/180.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, IV
Ingredients
1 SL(3,Z) has Kazhdan’s property (T ).
2 The non-commutative Mazur map is uniformly continuous.
3 A key inequality. For p = 1, 2,∞, N ∈ N, S ∈ B(`p, `pN),
and T ∈ B(`p′, `p′
N ):
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ N‖S‖‖T‖.
(This estimate is no longer true for p ∈ (1,∞) \ {2}.)
![Page 181: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/181.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, IV
Ingredients
1 SL(3,Z) has Kazhdan’s property (T ).
2 The non-commutative Mazur map is uniformly continuous.
3 A key inequality. For p = 1, 2,∞, N ∈ N, S ∈ B(`p, `pN),
and T ∈ B(`p′, `p′
N ):
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ N‖S‖‖T‖.
(This estimate is no longer true for p ∈ (1,∞) \ {2}.)
![Page 182: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/182.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, IV
Ingredients
1 SL(3,Z) has Kazhdan’s property (T ).
2 The non-commutative Mazur map is uniformly continuous.
3 A key inequality. For p = 1, 2,∞, N ∈ N, S ∈ B(`p, `pN),
and T ∈ B(`p′, `p′
N ):
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ N‖S‖‖T‖.
(This estimate is no longer true for p ∈ (1,∞) \ {2}.)
![Page 183: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/183.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, IV
Ingredients
1 SL(3,Z) has Kazhdan’s property (T ).
2 The non-commutative Mazur map is uniformly continuous.
3 A key inequality. For p = 1, 2,∞, N ∈ N, S ∈ B(`p, `pN),
and T ∈ B(`p′, `p′
N ):
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ N‖S‖‖T‖.
(This estimate is no longer true for p ∈ (1,∞) \ {2}.)
![Page 184: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/184.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, IV
Ingredients
1 SL(3,Z) has Kazhdan’s property (T ).
2 The non-commutative Mazur map is uniformly continuous.
3 A key inequality.
For p = 1, 2,∞, N ∈ N, S ∈ B(`p, `pN),
and T ∈ B(`p′, `p′
N ):
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ N‖S‖‖T‖.
(This estimate is no longer true for p ∈ (1,∞) \ {2}.)
![Page 185: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/185.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, IV
Ingredients
1 SL(3,Z) has Kazhdan’s property (T ).
2 The non-commutative Mazur map is uniformly continuous.
3 A key inequality. For p = 1, 2,∞,
N ∈ N, S ∈ B(`p, `pN),
and T ∈ B(`p′, `p′
N ):
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ N‖S‖‖T‖.
(This estimate is no longer true for p ∈ (1,∞) \ {2}.)
![Page 186: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/186.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, IV
Ingredients
1 SL(3,Z) has Kazhdan’s property (T ).
2 The non-commutative Mazur map is uniformly continuous.
3 A key inequality. For p = 1, 2,∞, N ∈ N,
S ∈ B(`p, `pN),
and T ∈ B(`p′, `p′
N ):
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ N‖S‖‖T‖.
(This estimate is no longer true for p ∈ (1,∞) \ {2}.)
![Page 187: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/187.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, IV
Ingredients
1 SL(3,Z) has Kazhdan’s property (T ).
2 The non-commutative Mazur map is uniformly continuous.
3 A key inequality. For p = 1, 2,∞, N ∈ N, S ∈ B(`p, `pN),
and T ∈ B(`p′, `p′
N ):
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ N‖S‖‖T‖.
(This estimate is no longer true for p ∈ (1,∞) \ {2}.)
![Page 188: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/188.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, IV
Ingredients
1 SL(3,Z) has Kazhdan’s property (T ).
2 The non-commutative Mazur map is uniformly continuous.
3 A key inequality. For p = 1, 2,∞, N ∈ N, S ∈ B(`p, `pN),
and T ∈ B(`p′, `p′
N ):
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ N‖S‖‖T‖.
(This estimate is no longer true for p ∈ (1,∞) \ {2}.)
![Page 189: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/189.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Ozawa’s proof revisited, IV
Ingredients
1 SL(3,Z) has Kazhdan’s property (T ).
2 The non-commutative Mazur map is uniformly continuous.
3 A key inequality. For p = 1, 2,∞, N ∈ N, S ∈ B(`p, `pN),
and T ∈ B(`p′, `p′
N ):
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ N‖S‖‖T‖.
(This estimate is no longer true for p ∈ (1,∞) \ {2}.)
![Page 190: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/190.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), I
Theorem (VR, 2009)
Let E be a Banach space with a basis (xn)∞n=1 such that thereis C > 0 with
∞∑n=1
‖Sxn‖‖Tx∗n‖ ≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(E , `2N), T ∈ B(E ∗, `2
N)).
Then `∞(K(`2 ⊕ E )) is not amenable.
Example
It is easy to see that the following spaces satisfy the hypothesesof the theorem: c0, `1, and `2.
![Page 191: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/191.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), I
Theorem (VR, 2009)
Let E be a Banach space with a basis (xn)∞n=1 such that thereis C > 0 with
∞∑n=1
‖Sxn‖‖Tx∗n‖ ≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(E , `2N), T ∈ B(E ∗, `2
N)).
Then `∞(K(`2 ⊕ E )) is not amenable.
Example
It is easy to see that the following spaces satisfy the hypothesesof the theorem: c0, `1, and `2.
![Page 192: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/192.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), I
Theorem (VR, 2009)
Let E be a Banach space with a basis (xn)∞n=1
such that thereis C > 0 with
∞∑n=1
‖Sxn‖‖Tx∗n‖ ≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(E , `2N), T ∈ B(E ∗, `2
N)).
Then `∞(K(`2 ⊕ E )) is not amenable.
Example
It is easy to see that the following spaces satisfy the hypothesesof the theorem: c0, `1, and `2.
![Page 193: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/193.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), I
Theorem (VR, 2009)
Let E be a Banach space with a basis (xn)∞n=1 such that thereis C > 0
with
∞∑n=1
‖Sxn‖‖Tx∗n‖ ≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(E , `2N), T ∈ B(E ∗, `2
N)).
Then `∞(K(`2 ⊕ E )) is not amenable.
Example
It is easy to see that the following spaces satisfy the hypothesesof the theorem: c0, `1, and `2.
![Page 194: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/194.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), I
Theorem (VR, 2009)
Let E be a Banach space with a basis (xn)∞n=1 such that thereis C > 0 with
∞∑n=1
‖Sxn‖‖Tx∗n‖ ≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(E , `2N), T ∈ B(E ∗, `2
N)).
Then `∞(K(`2 ⊕ E )) is not amenable.
Example
It is easy to see that the following spaces satisfy the hypothesesof the theorem: c0, `1, and `2.
![Page 195: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/195.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), I
Theorem (VR, 2009)
Let E be a Banach space with a basis (xn)∞n=1 such that thereis C > 0 with
∞∑n=1
‖Sxn‖‖Tx∗n‖ ≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(E , `2N), T ∈ B(E ∗, `2
N)).
Then `∞(K(`2 ⊕ E )) is not amenable.
Example
It is easy to see that the following spaces satisfy the hypothesesof the theorem: c0, `1, and `2.
![Page 196: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/196.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), I
Theorem (VR, 2009)
Let E be a Banach space with a basis (xn)∞n=1 such that thereis C > 0 with
∞∑n=1
‖Sxn‖‖Tx∗n‖ ≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(E , `2N), T ∈ B(E ∗, `2
N)).
Then `∞(K(`2 ⊕ E )) is not amenable.
Example
It is easy to see that the following spaces satisfy the hypothesesof the theorem: c0, `1, and `2.
![Page 197: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/197.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), I
Theorem (VR, 2009)
Let E be a Banach space with a basis (xn)∞n=1 such that thereis C > 0 with
∞∑n=1
‖Sxn‖‖Tx∗n‖ ≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(E , `2N), T ∈ B(E ∗, `2
N)).
Then `∞(K(`2 ⊕ E )) is not amenable.
Example
It is easy to see that the following spaces satisfy the hypothesesof the theorem:
c0, `1, and `2.
![Page 198: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/198.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), I
Theorem (VR, 2009)
Let E be a Banach space with a basis (xn)∞n=1 such that thereis C > 0 with
∞∑n=1
‖Sxn‖‖Tx∗n‖ ≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(E , `2N), T ∈ B(E ∗, `2
N)).
Then `∞(K(`2 ⊕ E )) is not amenable.
Example
It is easy to see that the following spaces satisfy the hypothesesof the theorem: c0,
`1, and `2.
![Page 199: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/199.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), I
Theorem (VR, 2009)
Let E be a Banach space with a basis (xn)∞n=1 such that thereis C > 0 with
∞∑n=1
‖Sxn‖‖Tx∗n‖ ≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(E , `2N), T ∈ B(E ∗, `2
N)).
Then `∞(K(`2 ⊕ E )) is not amenable.
Example
It is easy to see that the following spaces satisfy the hypothesesof the theorem: c0, `1,
and `2.
![Page 200: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/200.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), I
Theorem (VR, 2009)
Let E be a Banach space with a basis (xn)∞n=1 such that thereis C > 0 with
∞∑n=1
‖Sxn‖‖Tx∗n‖ ≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(E , `2N), T ∈ B(E ∗, `2
N)).
Then `∞(K(`2 ⊕ E )) is not amenable.
Example
It is easy to see that the following spaces satisfy the hypothesesof the theorem: c0, `1, and `2.
![Page 201: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/201.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), II
Lemma
Let A be an amenable Banach algebra, and let e ∈ A be anidempotent. Then, for any ε > 0 and any finite subset F ofeAe, there are a1, b1, . . . , ar , br ∈ A such that
r∑k=1
akbk = e
and ∥∥∥∥∥r∑
k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥A⊗A
< ε (x ∈ F ).
![Page 202: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/202.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), II
Lemma
Let A be an amenable Banach algebra, and let e ∈ A be anidempotent. Then, for any ε > 0 and any finite subset F ofeAe, there are a1, b1, . . . , ar , br ∈ A such that
r∑k=1
akbk = e
and ∥∥∥∥∥r∑
k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥A⊗A
< ε (x ∈ F ).
![Page 203: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/203.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), II
Lemma
Let A be an amenable Banach algebra, and let e ∈ A be anidempotent. Then,
for any ε > 0 and any finite subset F ofeAe, there are a1, b1, . . . , ar , br ∈ A such that
r∑k=1
akbk = e
and ∥∥∥∥∥r∑
k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥A⊗A
< ε (x ∈ F ).
![Page 204: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/204.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), II
Lemma
Let A be an amenable Banach algebra, and let e ∈ A be anidempotent. Then, for any ε > 0
and any finite subset F ofeAe, there are a1, b1, . . . , ar , br ∈ A such that
r∑k=1
akbk = e
and ∥∥∥∥∥r∑
k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥A⊗A
< ε (x ∈ F ).
![Page 205: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/205.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), II
Lemma
Let A be an amenable Banach algebra, and let e ∈ A be anidempotent. Then, for any ε > 0 and any finite subset F ofeAe,
there are a1, b1, . . . , ar , br ∈ A such that
r∑k=1
akbk = e
and ∥∥∥∥∥r∑
k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥A⊗A
< ε (x ∈ F ).
![Page 206: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/206.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), II
Lemma
Let A be an amenable Banach algebra, and let e ∈ A be anidempotent. Then, for any ε > 0 and any finite subset F ofeAe, there are a1, b1, . . . , ar , br ∈ A
such that
r∑k=1
akbk = e
and ∥∥∥∥∥r∑
k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥A⊗A
< ε (x ∈ F ).
![Page 207: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/207.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), II
Lemma
Let A be an amenable Banach algebra, and let e ∈ A be anidempotent. Then, for any ε > 0 and any finite subset F ofeAe, there are a1, b1, . . . , ar , br ∈ A such that
r∑k=1
akbk = e
and
∥∥∥∥∥r∑
k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥A⊗A
< ε (x ∈ F ).
![Page 208: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/208.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), II
Lemma
Let A be an amenable Banach algebra, and let e ∈ A be anidempotent. Then, for any ε > 0 and any finite subset F ofeAe, there are a1, b1, . . . , ar , br ∈ A such that
r∑k=1
akbk = e
and ∥∥∥∥∥r∑
k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥A⊗A
< ε (x ∈ F ).
![Page 209: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/209.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), III
Sketched proof of the Theorem
Embed
`∞-⊕p∈PB(`2(Λp)) ⊂ `∞-
⊕p∈PK(`2 ⊕ E ) =: A
as “upper left corners”. Let A act on
`2(P, `2 ⊕ E ) ∼= `2(P, `2)⊕ `2(P,E ).
![Page 210: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/210.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), III
Sketched proof of the Theorem
Embed
`∞-⊕p∈PB(`2(Λp)) ⊂ `∞-
⊕p∈PK(`2 ⊕ E ) =: A
as “upper left corners”. Let A act on
`2(P, `2 ⊕ E ) ∼= `2(P, `2)⊕ `2(P,E ).
![Page 211: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/211.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), III
Sketched proof of the Theorem
Embed
`∞-⊕p∈PB(`2(Λp))
⊂ `∞-⊕p∈PK(`2 ⊕ E ) =: A
as “upper left corners”. Let A act on
`2(P, `2 ⊕ E ) ∼= `2(P, `2)⊕ `2(P,E ).
![Page 212: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/212.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), III
Sketched proof of the Theorem
Embed
`∞-⊕p∈PB(`2(Λp)) ⊂ `∞-
⊕p∈PK(`2 ⊕ E )
=: A
as “upper left corners”. Let A act on
`2(P, `2 ⊕ E ) ∼= `2(P, `2)⊕ `2(P,E ).
![Page 213: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/213.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), III
Sketched proof of the Theorem
Embed
`∞-⊕p∈PB(`2(Λp)) ⊂ `∞-
⊕p∈PK(`2 ⊕ E ) =: A
as “upper left corners”. Let A act on
`2(P, `2 ⊕ E ) ∼= `2(P, `2)⊕ `2(P,E ).
![Page 214: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/214.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), III
Sketched proof of the Theorem
Embed
`∞-⊕p∈PB(`2(Λp)) ⊂ `∞-
⊕p∈PK(`2 ⊕ E ) =: A
as “upper left corners”.
Let A act on
`2(P, `2 ⊕ E ) ∼= `2(P, `2)⊕ `2(P,E ).
![Page 215: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/215.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), III
Sketched proof of the Theorem
Embed
`∞-⊕p∈PB(`2(Λp)) ⊂ `∞-
⊕p∈PK(`2 ⊕ E ) =: A
as “upper left corners”. Let A act on
`2(P, `2 ⊕ E )
∼= `2(P, `2)⊕ `2(P,E ).
![Page 216: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/216.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), III
Sketched proof of the Theorem
Embed
`∞-⊕p∈PB(`2(Λp)) ⊂ `∞-
⊕p∈PK(`2 ⊕ E ) =: A
as “upper left corners”. Let A act on
`2(P, `2 ⊕ E ) ∼= `2(P, `2)⊕ `2(P,E ).
![Page 217: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/217.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IV
Sketched proof of the Theorem (continued)
For p ∈ P, let Pp ∈ B(`2) be the canonical projection onto thefirst |Λp| coordinates of the pth `2-summand of
`2(P, `2)⊕ `2(P,E ).
Set e = (Pp)p∈P. Then e is an idempotent in A with
eAe = `∞-⊕p∈PB(`2(Λp)).
![Page 218: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/218.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IV
Sketched proof of the Theorem (continued)
For p ∈ P,
let Pp ∈ B(`2) be the canonical projection onto thefirst |Λp| coordinates of the pth `2-summand of
`2(P, `2)⊕ `2(P,E ).
Set e = (Pp)p∈P. Then e is an idempotent in A with
eAe = `∞-⊕p∈PB(`2(Λp)).
![Page 219: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/219.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IV
Sketched proof of the Theorem (continued)
For p ∈ P, let Pp ∈ B(`2) be the canonical projection
onto thefirst |Λp| coordinates of the pth `2-summand of
`2(P, `2)⊕ `2(P,E ).
Set e = (Pp)p∈P. Then e is an idempotent in A with
eAe = `∞-⊕p∈PB(`2(Λp)).
![Page 220: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/220.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IV
Sketched proof of the Theorem (continued)
For p ∈ P, let Pp ∈ B(`2) be the canonical projection onto thefirst |Λp| coordinates
of the pth `2-summand of
`2(P, `2)⊕ `2(P,E ).
Set e = (Pp)p∈P. Then e is an idempotent in A with
eAe = `∞-⊕p∈PB(`2(Λp)).
![Page 221: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/221.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IV
Sketched proof of the Theorem (continued)
For p ∈ P, let Pp ∈ B(`2) be the canonical projection onto thefirst |Λp| coordinates of the pth `2-summand
of
`2(P, `2)⊕ `2(P,E ).
Set e = (Pp)p∈P. Then e is an idempotent in A with
eAe = `∞-⊕p∈PB(`2(Λp)).
![Page 222: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/222.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IV
Sketched proof of the Theorem (continued)
For p ∈ P, let Pp ∈ B(`2) be the canonical projection onto thefirst |Λp| coordinates of the pth `2-summand of
`2(P, `2)⊕ `2(P,E ).
Set e = (Pp)p∈P. Then e is an idempotent in A with
eAe = `∞-⊕p∈PB(`2(Λp)).
![Page 223: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/223.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IV
Sketched proof of the Theorem (continued)
For p ∈ P, let Pp ∈ B(`2) be the canonical projection onto thefirst |Λp| coordinates of the pth `2-summand of
`2(P, `2)⊕ `2(P,E ).
Set e = (Pp)p∈P.
Then e is an idempotent in A with
eAe = `∞-⊕p∈PB(`2(Λp)).
![Page 224: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/224.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IV
Sketched proof of the Theorem (continued)
For p ∈ P, let Pp ∈ B(`2) be the canonical projection onto thefirst |Λp| coordinates of the pth `2-summand of
`2(P, `2)⊕ `2(P,E ).
Set e = (Pp)p∈P. Then e is an idempotent in A
with
eAe = `∞-⊕p∈PB(`2(Λp)).
![Page 225: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/225.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IV
Sketched proof of the Theorem (continued)
For p ∈ P, let Pp ∈ B(`2) be the canonical projection onto thefirst |Λp| coordinates of the pth `2-summand of
`2(P, `2)⊕ `2(P,E ).
Set e = (Pp)p∈P. Then e is an idempotent in A with
eAe = `∞-⊕p∈PB(`2(Λp)).
![Page 226: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/226.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), V
Sketched proof of the Theorem (continued)
Assume towards a contradiction that `∞(P,K(`2 ⊕ E )) isamenable.Let ε > 0 be arbitrary. By the previous Lemma there are thusa1, b1, . . . , ar , br ∈ A such that
∑rk=1 akbk = e and∥∥∥∥∥
r∑k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥ < ε
(C + 1)(m + 1)(x ∈ F ),
whereF := {(πp(gj))p∈P : j = 1, . . . ,m + 1} .
![Page 227: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/227.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), V
Sketched proof of the Theorem (continued)
Assume towards a contradiction that `∞(P,K(`2 ⊕ E )) isamenable.Let ε > 0 be arbitrary. By the previous Lemma there are thusa1, b1, . . . , ar , br ∈ A such that
∑rk=1 akbk = e and∥∥∥∥∥
r∑k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥ < ε
(C + 1)(m + 1)(x ∈ F ),
whereF := {(πp(gj))p∈P : j = 1, . . . ,m + 1} .
![Page 228: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/228.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), V
Sketched proof of the Theorem (continued)
Assume towards a contradiction that `∞(P,K(`2 ⊕ E )) isamenable.
Let ε > 0 be arbitrary. By the previous Lemma there are thusa1, b1, . . . , ar , br ∈ A such that
∑rk=1 akbk = e and∥∥∥∥∥
r∑k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥ < ε
(C + 1)(m + 1)(x ∈ F ),
whereF := {(πp(gj))p∈P : j = 1, . . . ,m + 1} .
![Page 229: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/229.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), V
Sketched proof of the Theorem (continued)
Assume towards a contradiction that `∞(P,K(`2 ⊕ E )) isamenable.Let ε > 0 be arbitrary.
By the previous Lemma there are thusa1, b1, . . . , ar , br ∈ A such that
∑rk=1 akbk = e and∥∥∥∥∥
r∑k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥ < ε
(C + 1)(m + 1)(x ∈ F ),
whereF := {(πp(gj))p∈P : j = 1, . . . ,m + 1} .
![Page 230: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/230.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), V
Sketched proof of the Theorem (continued)
Assume towards a contradiction that `∞(P,K(`2 ⊕ E )) isamenable.Let ε > 0 be arbitrary. By the previous Lemma
there are thusa1, b1, . . . , ar , br ∈ A such that
∑rk=1 akbk = e and∥∥∥∥∥
r∑k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥ < ε
(C + 1)(m + 1)(x ∈ F ),
whereF := {(πp(gj))p∈P : j = 1, . . . ,m + 1} .
![Page 231: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/231.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), V
Sketched proof of the Theorem (continued)
Assume towards a contradiction that `∞(P,K(`2 ⊕ E )) isamenable.Let ε > 0 be arbitrary. By the previous Lemma there are thusa1, b1, . . . , ar , br ∈ A
such that∑r
k=1 akbk = e and∥∥∥∥∥r∑
k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥ < ε
(C + 1)(m + 1)(x ∈ F ),
whereF := {(πp(gj))p∈P : j = 1, . . . ,m + 1} .
![Page 232: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/232.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), V
Sketched proof of the Theorem (continued)
Assume towards a contradiction that `∞(P,K(`2 ⊕ E )) isamenable.Let ε > 0 be arbitrary. By the previous Lemma there are thusa1, b1, . . . , ar , br ∈ A such that
∑rk=1 akbk = e
and∥∥∥∥∥r∑
k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥ < ε
(C + 1)(m + 1)(x ∈ F ),
whereF := {(πp(gj))p∈P : j = 1, . . . ,m + 1} .
![Page 233: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/233.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), V
Sketched proof of the Theorem (continued)
Assume towards a contradiction that `∞(P,K(`2 ⊕ E )) isamenable.Let ε > 0 be arbitrary. By the previous Lemma there are thusa1, b1, . . . , ar , br ∈ A such that
∑rk=1 akbk = e and∥∥∥∥∥
r∑k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥ < ε
(C + 1)(m + 1)(x ∈ F ),
whereF := {(πp(gj))p∈P : j = 1, . . . ,m + 1} .
![Page 234: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/234.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), V
Sketched proof of the Theorem (continued)
Assume towards a contradiction that `∞(P,K(`2 ⊕ E )) isamenable.Let ε > 0 be arbitrary. By the previous Lemma there are thusa1, b1, . . . , ar , br ∈ A such that
∑rk=1 akbk = e and∥∥∥∥∥
r∑k=1
xak ⊗ bk − ak ⊗ bkx
∥∥∥∥∥ < ε
(C + 1)(m + 1)(x ∈ F ),
whereF := {(πp(gj))p∈P : j = 1, . . . ,m + 1} .
![Page 235: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/235.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VI
Sketched proof of the Theorem (continued)
For p, q ∈ P and n ∈ N, define
Tp(q, n) :=r∑
k=1
Ppak(eq ⊗ en)⊗ P∗pb∗k(e∗q ⊗ e∗n)
+ Ppak(eq ⊗ xn)⊗ P∗pb∗k(e∗q ⊗ x∗n )
Note thatTp(q, n) ∈ `2(Λp)⊗`2(Λp).
![Page 236: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/236.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VI
Sketched proof of the Theorem (continued)
For p, q ∈ P and n ∈ N, define
Tp(q, n) :=r∑
k=1
Ppak(eq ⊗ en)⊗ P∗pb∗k(e∗q ⊗ e∗n)
+ Ppak(eq ⊗ xn)⊗ P∗pb∗k(e∗q ⊗ x∗n )
Note thatTp(q, n) ∈ `2(Λp)⊗`2(Λp).
![Page 237: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/237.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VI
Sketched proof of the Theorem (continued)
For p, q ∈ P and n ∈ N, define
Tp(q, n) :=r∑
k=1
Ppak(eq ⊗ en)⊗ P∗pb∗k(e∗q ⊗ e∗n)
+ Ppak(eq ⊗ xn)⊗ P∗pb∗k(e∗q ⊗ x∗n )
Note thatTp(q, n) ∈ `2(Λp)⊗`2(Λp).
![Page 238: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/238.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VI
Sketched proof of the Theorem (continued)
For p, q ∈ P and n ∈ N, define
Tp(q, n) :=r∑
k=1
Ppak(eq ⊗ en)⊗ P∗pb∗k(e∗q ⊗ e∗n)
+ Ppak(eq ⊗ xn)⊗ P∗pb∗k(e∗q ⊗ x∗n )
Note thatTp(q, n) ∈ `2(Λp)⊗`2(Λp).
![Page 239: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/239.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VI
Sketched proof of the Theorem (continued)
For p, q ∈ P and n ∈ N, define
Tp(q, n) :=r∑
k=1
Ppak(eq ⊗ en)⊗ P∗pb∗k(e∗q ⊗ e∗n)
+ Ppak(eq ⊗ xn)⊗ P∗pb∗k(e∗q ⊗ x∗n )
Note thatTp(q, n) ∈ `2(Λp)⊗`2(Λp).
![Page 240: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/240.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VII
Sketched proof of the Theorem (continued)
It follows that∑q∈P
∞∑n=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε
m + 1|Λp|
for j = 1, . . . ,m + 1 and p ∈ P and thus
∑q∈P
∞∑n=1
m+1∑j=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖
≤ ε|Λp|.
![Page 241: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/241.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VII
Sketched proof of the Theorem (continued)
It follows that∑q∈P
∞∑n=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε
m + 1|Λp|
for j = 1, . . . ,m + 1 and p ∈ P and thus
∑q∈P
∞∑n=1
m+1∑j=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖
≤ ε|Λp|.
![Page 242: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/242.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VII
Sketched proof of the Theorem (continued)
It follows that
∑q∈P
∞∑n=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε
m + 1|Λp|
for j = 1, . . . ,m + 1 and p ∈ P and thus
∑q∈P
∞∑n=1
m+1∑j=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖
≤ ε|Λp|.
![Page 243: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/243.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VII
Sketched proof of the Theorem (continued)
It follows that
∑q∈P
∞∑n=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε
m + 1|Λp|
for j = 1, . . . ,m + 1 and p ∈ P and thus
∑q∈P
∞∑n=1
m+1∑j=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖
≤ ε|Λp|.
![Page 244: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/244.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VII
Sketched proof of the Theorem (continued)
It follows that∑q∈P
∞∑n=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε
m + 1|Λp|
for j = 1, . . . ,m + 1 and p ∈ P and thus
∑q∈P
∞∑n=1
m+1∑j=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖
≤ ε|Λp|.
![Page 245: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/245.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VII
Sketched proof of the Theorem (continued)
It follows that∑q∈P
∞∑n=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε
m + 1|Λp|
for j = 1, . . . ,m + 1
and p ∈ P and thus
∑q∈P
∞∑n=1
m+1∑j=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖
≤ ε|Λp|.
![Page 246: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/246.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VII
Sketched proof of the Theorem (continued)
It follows that∑q∈P
∞∑n=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε
m + 1|Λp|
for j = 1, . . . ,m + 1 and p ∈ P
and thus
∑q∈P
∞∑n=1
m+1∑j=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖
≤ ε|Λp|.
![Page 247: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/247.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VII
Sketched proof of the Theorem (continued)
It follows that∑q∈P
∞∑n=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε
m + 1|Λp|
for j = 1, . . . ,m + 1 and p ∈ P and thus
∑q∈P
∞∑n=1
m+1∑j=1
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖
≤ ε|Λp|.
![Page 248: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/248.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VIII
Sketched proof of the Theorem (continued)
On the other hand:∑q∈P
∞∑n=1
‖Tp(q, n)‖
≥∞∑
n=1
∣∣∣∣∣r∑
k=1
〈Ppak,pen,P∗pb∗k,pe∗n〉+
r∑k=1
〈Ppak,pxn,P∗pb∗k,px∗n 〉
∣∣∣∣∣
= Trr∑
k=1
bk,pPpak,p
= Trr∑
k=1
Ppak,pbk,p
= Tr Pp = |Λp|.
![Page 249: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/249.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VIII
Sketched proof of the Theorem (continued)
On the other hand:∑q∈P
∞∑n=1
‖Tp(q, n)‖
≥∞∑
n=1
∣∣∣∣∣r∑
k=1
〈Ppak,pen,P∗pb∗k,pe∗n〉+
r∑k=1
〈Ppak,pxn,P∗pb∗k,px∗n 〉
∣∣∣∣∣
= Trr∑
k=1
bk,pPpak,p
= Trr∑
k=1
Ppak,pbk,p
= Tr Pp = |Λp|.
![Page 250: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/250.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VIII
Sketched proof of the Theorem (continued)
On the other hand:∑q∈P
∞∑n=1
‖Tp(q, n)‖
≥∞∑
n=1
∣∣∣∣∣r∑
k=1
〈Ppak,pen,P∗pb∗k,pe∗n〉+
r∑k=1
〈Ppak,pxn,P∗pb∗k,px∗n 〉
∣∣∣∣∣
= Trr∑
k=1
bk,pPpak,p
= Trr∑
k=1
Ppak,pbk,p
= Tr Pp = |Λp|.
![Page 251: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/251.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VIII
Sketched proof of the Theorem (continued)
On the other hand:∑q∈P
∞∑n=1
‖Tp(q, n)‖
≥∞∑
n=1
∣∣∣∣∣r∑
k=1
〈Ppak,pen,P∗pb∗k,pe∗n〉+
r∑k=1
〈Ppak,pxn,P∗pb∗k,px∗n 〉
∣∣∣∣∣= Tr
r∑k=1
bk,pPpak,p
= Trr∑
k=1
Ppak,pbk,p
= Tr Pp = |Λp|.
![Page 252: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/252.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VIII
Sketched proof of the Theorem (continued)
On the other hand:∑q∈P
∞∑n=1
‖Tp(q, n)‖
≥∞∑
n=1
∣∣∣∣∣r∑
k=1
〈Ppak,pen,P∗pb∗k,pe∗n〉+
r∑k=1
〈Ppak,pxn,P∗pb∗k,px∗n 〉
∣∣∣∣∣= Tr
r∑k=1
bk,pPpak,p
= Trr∑
k=1
Ppak,pbk,p
= Tr Pp = |Λp|.
![Page 253: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/253.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VIII
Sketched proof of the Theorem (continued)
On the other hand:∑q∈P
∞∑n=1
‖Tp(q, n)‖
≥∞∑
n=1
∣∣∣∣∣r∑
k=1
〈Ppak,pen,P∗pb∗k,pe∗n〉+
r∑k=1
〈Ppak,pxn,P∗pb∗k,px∗n 〉
∣∣∣∣∣= Tr
r∑k=1
bk,pPpak,p
= Trr∑
k=1
Ppak,pbk,p
= Tr Pp
= |Λp|.
![Page 254: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/254.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), VIII
Sketched proof of the Theorem (continued)
On the other hand:∑q∈P
∞∑n=1
‖Tp(q, n)‖
≥∞∑
n=1
∣∣∣∣∣r∑
k=1
〈Ppak,pen,P∗pb∗k,pe∗n〉+
r∑k=1
〈Ppak,pxn,P∗pb∗k,px∗n 〉
∣∣∣∣∣= Tr
r∑k=1
bk,pPpak,p
= Trr∑
k=1
Ppak,pbk,p
= Tr Pp = |Λp|.
![Page 255: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/255.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IX
Sketched proof of the Theorem (conclusion)
It follows that, for each p ∈ P, there are q ∈ P and n ∈ N withTp(q, n) 6= 0 and
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε‖Tp(q, n)‖
for j = 1, . . . ,m + 1, which violates Ozawa’s Lemma.
![Page 256: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/256.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IX
Sketched proof of the Theorem (conclusion)
It follows that, for each p ∈ P, there are q ∈ P and n ∈ N withTp(q, n) 6= 0 and
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε‖Tp(q, n)‖
for j = 1, . . . ,m + 1, which violates Ozawa’s Lemma.
![Page 257: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/257.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IX
Sketched proof of the Theorem (conclusion)
It follows that,
for each p ∈ P, there are q ∈ P and n ∈ N withTp(q, n) 6= 0 and
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε‖Tp(q, n)‖
for j = 1, . . . ,m + 1, which violates Ozawa’s Lemma.
![Page 258: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/258.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IX
Sketched proof of the Theorem (conclusion)
It follows that, for each p ∈ P,
there are q ∈ P and n ∈ N withTp(q, n) 6= 0 and
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε‖Tp(q, n)‖
for j = 1, . . . ,m + 1, which violates Ozawa’s Lemma.
![Page 259: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/259.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IX
Sketched proof of the Theorem (conclusion)
It follows that, for each p ∈ P, there are q ∈ P and n ∈ N
withTp(q, n) 6= 0 and
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε‖Tp(q, n)‖
for j = 1, . . . ,m + 1, which violates Ozawa’s Lemma.
![Page 260: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/260.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IX
Sketched proof of the Theorem (conclusion)
It follows that, for each p ∈ P, there are q ∈ P and n ∈ N withTp(q, n) 6= 0
and
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε‖Tp(q, n)‖
for j = 1, . . . ,m + 1, which violates Ozawa’s Lemma.
![Page 261: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/261.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IX
Sketched proof of the Theorem (conclusion)
It follows that, for each p ∈ P, there are q ∈ P and n ∈ N withTp(q, n) 6= 0 and
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε‖Tp(q, n)‖
for j = 1, . . . ,m + 1,
which violates Ozawa’s Lemma.
![Page 262: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/262.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IX
Sketched proof of the Theorem (conclusion)
It follows that, for each p ∈ P, there are q ∈ P and n ∈ N withTp(q, n) 6= 0 and
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε‖Tp(q, n)‖
for j = 1, . . . ,m + 1, which violates Ozawa’s Lemma.
![Page 263: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/263.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A non-amenability result for `∞(K(`2 ⊕ E )), IX
Sketched proof of the Theorem (conclusion)
It follows that, for each p ∈ P, there are q ∈ P and n ∈ N withTp(q, n) 6= 0 and
‖Tp(q, n)− ((πp(gj)⊗ πp(gj))Tp(q, n)‖ ≤ ε‖Tp(q, n)‖
for j = 1, . . . ,m + 1, which violates Ozawa’s Lemma.
![Page 264: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/264.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞), and E and F be Banach spaces. A linear mapT : E → F is called p-summing if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F extends to a bounded map from`p⊗E to `p(F ). The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 265: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/265.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞), and E and F be Banach spaces. A linear mapT : E → F is called p-summing if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F extends to a bounded map from`p⊗E to `p(F ). The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 266: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/266.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞),
and E and F be Banach spaces. A linear mapT : E → F is called p-summing if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F extends to a bounded map from`p⊗E to `p(F ). The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 267: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/267.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞), and E and F be Banach spaces.
A linear mapT : E → F is called p-summing if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F extends to a bounded map from`p⊗E to `p(F ). The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 268: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/268.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞), and E and F be Banach spaces. A linear mapT : E → F is called p-summing
if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F extends to a bounded map from`p⊗E to `p(F ). The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 269: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/269.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞), and E and F be Banach spaces. A linear mapT : E → F is called p-summing if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F
extends to a bounded map from`p⊗E to `p(F ). The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 270: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/270.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞), and E and F be Banach spaces. A linear mapT : E → F is called p-summing if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F extends to a bounded map from`p⊗E to `p(F ).
The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 271: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/271.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞), and E and F be Banach spaces. A linear mapT : E → F is called p-summing if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F extends to a bounded map from`p⊗E to `p(F ). The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T
and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 272: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/272.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞), and E and F be Banach spaces. A linear mapT : E → F is called p-summing if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F extends to a bounded map from`p⊗E to `p(F ). The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 273: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/273.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞), and E and F be Banach spaces. A linear mapT : E → F is called p-summing if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F extends to a bounded map from`p⊗E to `p(F ). The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 274: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/274.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞), and E and F be Banach spaces. A linear mapT : E → F is called p-summing if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F extends to a bounded map from`p⊗E to `p(F ). The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 275: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/275.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
p-summing operators
Definition
Let p ∈ [1,∞), and E and F be Banach spaces. A linear mapT : E → F is called p-summing if the amplificationid`p ⊗ T : `p ⊗ E → `p ⊗ F extends to a bounded map from`p⊗E to `p(F ). The operator norm of id`p⊗T : `p⊗E → `p(F )is called the p-summing norm of T and denoted by πp(T ).
Theorem (Y. Gordon, 1969)
πp(id`2N
) ∼ N12
for all p ∈ [1,∞).
![Page 276: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/276.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A Lemma
Lemma
Let p ∈ (1,∞). Then there is C > 0 such that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(`p, `2N), T ∈ B(`p
′, `2
N)).
![Page 277: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/277.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A Lemma
Lemma
Let p ∈ (1,∞). Then there is C > 0 such that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(`p, `2N), T ∈ B(`p
′, `2
N)).
![Page 278: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/278.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A Lemma
Lemma
Let p ∈ (1,∞).
Then there is C > 0 such that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(`p, `2N), T ∈ B(`p
′, `2
N)).
![Page 279: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/279.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A Lemma
Lemma
Let p ∈ (1,∞). Then there is C > 0
such that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(`p, `2N), T ∈ B(`p
′, `2
N)).
![Page 280: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/280.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
A Lemma
Lemma
Let p ∈ (1,∞). Then there is C > 0 such that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ C N‖S‖‖T‖
(N ∈ N, S ∈ B(`p, `2N), T ∈ B(`p
′, `2
N)).
![Page 281: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/281.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify
algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N = `p
′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N
≤ ‖S‖`p′ (`2N)‖T‖`p(`2
N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 282: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/282.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify
algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N = `p
′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N
≤ ‖S‖`p′ (`2N)‖T‖`p(`2
N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 283: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/283.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify
algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N = `p
′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N
≤ ‖S‖`p′ (`2N)‖T‖`p(`2
N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 284: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/284.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify
algebraically
B(`p, `2N) = `p
′⊗`2N
= `p′ ⊗ `2
N = `p′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N
≤ ‖S‖`p′ (`2N)‖T‖`p(`2
N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 285: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/285.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N
= `p′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N
≤ ‖S‖`p′ (`2N)‖T‖`p(`2
N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 286: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/286.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N = `p
′(`2
N),
and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N
≤ ‖S‖`p′ (`2N)‖T‖`p(`2
N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 287: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/287.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N = `p
′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N
≤ ‖S‖`p′ (`2N)‖T‖`p(`2
N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 288: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/288.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N = `p
′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N
≤ ‖S‖`p′ (`2N)‖T‖`p(`2
N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 289: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/289.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N = `p
′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ ‖S‖`p′ (`2
N)‖T‖`p(`2N)
, by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 290: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/290.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N = `p
′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ ‖S‖`p′ (`2
N)‖T‖`p(`2N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 291: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/291.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N = `p
′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ ‖S‖`p′ (`2
N)‖T‖`p(`2N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 292: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/292.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N = `p
′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ ‖S‖`p′ (`2
N)‖T‖`p(`2N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖
, by Gordon.
![Page 293: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/293.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Proof of the Lemma
Proof.
Identify algebraically
B(`p, `2N) = `p
′⊗`2N = `p
′ ⊗ `2N = `p
′(`2
N), and
B(`p′, `2
N) = `p⊗`2N = `p ⊗ `2
N = `p(`2N).
Note that
∞∑n=1
‖Sen‖`2N‖Te∗n‖`2
N≤ ‖S‖`p′ (`2
N)‖T‖`p(`2N), by Holder,
≤ πp′(id`2N
)πp(id`2N
)‖S‖‖T‖
≤ C N‖S‖‖T‖, by Gordon.
![Page 294: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/294.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 295: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/295.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 296: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/296.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.
Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 297: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/297.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 298: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/298.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 299: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/299.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space.
Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 300: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/300.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 301: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/301.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 302: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/302.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable,
then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 303: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/303.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E )))
as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 304: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/304.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))).
Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 305: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/305.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 306: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/306.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 307: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/307.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 308: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/308.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞).
Then B(`p) and B(Lp[0, 1]) are not amenable.
![Page 309: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/309.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p)
and B(Lp[0, 1]) are not amenable.
![Page 310: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/310.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1])
are not amenable.
![Page 311: Amenability of operator algebras on Banach spaces, II1 jGj X g2G g g 1: Then a d = da (a 2M n) and d = I n. Hence, K(E) = B(E) is amenable. Amenability of operator algebras on Banach](https://reader033.vdocument.in/reader033/viewer/2022042415/5f30bf189d8acd0cba350894/html5/thumbnails/311.jpg)
Amenability ofoperator
algebras onBanach
spaces, II
Volker Runde
Amenability ofK(E)
Amenability ofB(E)
A positiveexample
B(`p ⊕ `q )with p 6= p
B(`p )
Non-amenability of B(`p) for p ∈ (1,∞)
Corollary
Let p ∈ (1,∞) and let E be an Lp-space with dim E =∞.Then `∞(K(E )) is not amenable.
Theorem (VR, 2009)
Let p ∈ (1,∞), and let E be an Lp-space. Then B(`p(E )) isnot amenable.
Proof.
If B(`p(E )) is amenable, then so is `∞(B(`p(E ))) as is`∞(K(`p(E ))). Impossible!
Corollary
Let p ∈ (1,∞). Then B(`p) and B(Lp[0, 1]) are not amenable.