dynamics, dimension and classification of c*-algebras...dynamics, dimension and classification of c...
TRANSCRIPT
![Page 1: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/1.jpg)
Dynamics, dimension and classification ofC∗-algebras
Wilhelm Winter
WWU Munster
Fields Institute, 10.9.2012
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 1 / 20
![Page 2: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/2.jpg)
Dimension and C∗-algebraic regularity
Dimension and C∗-algebraic regularity
Dynamic versions of dimension and regularity
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 2 / 20
![Page 3: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/3.jpg)
Dimension and C∗-algebraic regularity
DEFINITIONLet X be locally compact and metrizable. We say X has dimension atmost n, dim X ≤ n, if the following holds:
For any open cover V of X, there is a finite open cover
(Uλ)λ∈Λ
such thatI (Uλ)λ∈Λ refines VI Λ = Λ(0) ∪ . . . ∪ Λ(n) and for each i ∈ {0, . . . , n}, the (Uλ)Λ(i) are
pairwise disjoint.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 3 / 20
![Page 4: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/4.jpg)
Dimension and C∗-algebraic regularity
DEFINITIONLet X be locally compact and metrizable. We say X has dimension atmost n, dim X ≤ n, if the following holds:For any open cover V of X, there is a finite open cover
(Uλ)λ∈Λ
such thatI (Uλ)λ∈Λ refines VI Λ = Λ(0) ∪ . . . ∪ Λ(n) and for each i ∈ {0, . . . , n}, the (Uλ)Λ(i) are
pairwise disjoint.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 3 / 20
![Page 5: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/5.jpg)
Dimension and C∗-algebraic regularity
DEFINITIONLet X be locally compact and metrizable. We say X has dimension atmost n, dim X ≤ n, if the following holds:For any open cover V of X, there is a finite open cover
(Uλ)λ∈Λ
such thatI (Uλ)λ∈Λ refines V
I Λ = Λ(0) ∪ . . . ∪ Λ(n) and for each i ∈ {0, . . . , n}, the (Uλ)Λ(i) arepairwise disjoint.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 3 / 20
![Page 6: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/6.jpg)
Dimension and C∗-algebraic regularity
DEFINITIONLet X be locally compact and metrizable. We say X has dimension atmost n, dim X ≤ n, if the following holds:For any open cover V of X, there is a finite open cover
(Uλ)λ∈Λ
such thatI (Uλ)λ∈Λ refines VI Λ = Λ(0) ∪ . . . ∪ Λ(n) and for each i ∈ {0, . . . , n}, the (Uλ)Λ(i) are
pairwise disjoint.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 3 / 20
![Page 7: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/7.jpg)
Dimension and C∗-algebraic regularity
DEFINITION (W–Zacharias)Let A be a C∗-algebra, n ∈ N. We say A has nuclear dimension at mostn, dimnuc A ≤ n, if the following holds:
For any F ⊂ A finite and any ε > 0 there is an approximation
Aψ−→ F
ϕ−→ A
with F finite dimensional, ψ c.p.c., ϕ c.p. and
ϕ ◦ ψ =F ,ε idA,
and such that F can be written as
F = F(0) ⊕ . . .⊕ F(n)
with c.p.c. order zero maps
ϕ(i) := ϕ|F(i) .
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 4 / 20
![Page 8: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/8.jpg)
Dimension and C∗-algebraic regularity
DEFINITION (W–Zacharias)Let A be a C∗-algebra, n ∈ N. We say A has nuclear dimension at mostn, dimnuc A ≤ n, if the following holds:
For any F ⊂ A finite and any ε > 0 there is an approximation
Aψ−→ F
ϕ−→ A
with F finite dimensional, ψ c.p.c., ϕ c.p. and
ϕ ◦ ψ =F ,ε idA,
and such that F can be written as
F = F(0) ⊕ . . .⊕ F(n)
with c.p.c. order zero maps
ϕ(i) := ϕ|F(i) .
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 4 / 20
![Page 9: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/9.jpg)
Dimension and C∗-algebraic regularity
DEFINITION (W–Zacharias)Let A be a C∗-algebra, n ∈ N. We say A has nuclear dimension at mostn, dimnuc A ≤ n, if the following holds:
For any F ⊂ A finite and any ε > 0 there is an approximation
Aψ−→ F
ϕ−→ A
with F finite dimensional, ψ c.p.c., ϕ c.p. and
ϕ ◦ ψ =F ,ε idA,
and such that F can be written as
F = F(0) ⊕ . . .⊕ F(n)
with c.p.c. order zero maps
ϕ(i) := ϕ|F(i) .
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 4 / 20
![Page 10: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/10.jpg)
Dimension and C∗-algebraic regularity
DEFINITION (W–Zacharias)Let A be a C∗-algebra, n ∈ N. We say A has nuclear dimension at mostn, dimnuc A ≤ n, if the following holds:
For any F ⊂ A finite and any ε > 0 there is an approximation
Aψ−→ F
ϕ−→ A
with F finite dimensional, ψ c.p.c., ϕ c.p. and
ϕ ◦ ψ =F ,ε idA,
and such that F can be written as
F = F(0) ⊕ . . .⊕ F(n)
with c.p.c. order zero maps
ϕ(i) := ϕ|F(i) .
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 4 / 20
![Page 11: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/11.jpg)
Dimension and C∗-algebraic regularity
DEFINITION (Kirchberg)Let A be unital. A has covering number at most n, if the following holds:
For any k ∈ N there are c.p.c. order zero maps
φ(i) : Mk ⊕Mk+1 → A, i ∈ {0, . . . , n},
such thatn∑
i=0
φ(i)(1k ⊕ 1k+1) ≥ 1A.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 5 / 20
![Page 12: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/12.jpg)
Dimension and C∗-algebraic regularity
DEFINITION (Kirchberg)Let A be unital. A has covering number at most n, if the following holds:For any k ∈ N there are c.p.c. order zero maps
φ(i) : Mk ⊕Mk+1 → A, i ∈ {0, . . . , n},
such thatn∑
i=0
φ(i)(1k ⊕ 1k+1) ≥ 1A.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 5 / 20
![Page 13: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/13.jpg)
Dimension and C∗-algebraic regularity
DEFINITION/PROPOSITION (using Toms–W, Rørdam–W)A C∗-algebra A is Z-stable if and only if for every k ∈ N there are c.p.c.order zero maps
Φ : Mk → A∞ ∩ A′
andΨ : M2 → A∞ ∩ A′
such thatΨ(e11) = 1− Φ(1Mk)
andΦ(e11)Ψ(e22) = Ψ(e22)Φ(e11) = Ψ(e22).
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 6 / 20
![Page 14: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/14.jpg)
Dimension and C∗-algebraic regularity
DEFINITION/PROPOSITION (using Toms–W, Rørdam–W)A C∗-algebra A is Z-stable if and only if for every k ∈ N there are c.p.c.order zero maps
Φ : Mk → A∞ ∩ A′
andΨ : M2 → A∞ ∩ A′
such thatΨ(e11) = 1− Φ(1Mk)
andΦ(e11)Ψ(e22) = Ψ(e22)Φ(e11) = Ψ(e22).
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 6 / 20
![Page 15: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/15.jpg)
Dimension and C∗-algebraic regularity
DEFINITIONA unital simple C∗-algebra A has tracial m-comparison, if whenever0 6= a, b ∈ M∞(A)+ satisfy
dτ (a) < dτ (b)
for all τ ∈ T(A), thena - b⊕m+1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 7 / 20
![Page 16: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/16.jpg)
Dimension and C∗-algebraic regularity
THEOREM (by many hands)Let
E = {C(X) oα Z | X compact, metrizable, infinite,α induced by a uniquely ergodic, minimal homeomorphism}.
For any A ∈ E , dimnuc A <∞⇐⇒ A is Z-stable⇐⇒ A has tracialm-comparison for some m ∈ N.
Moreover, the regularity properties ensure classification by orderedK-theory in this case. (Countable structures are sufficient forclassification since T(A) is a singleton for each A.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 8 / 20
![Page 17: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/17.jpg)
Dimension and C∗-algebraic regularity
THEOREM (by many hands)Let
E = {C(X) oα Z | X compact, metrizable, infinite,α induced by a uniquely ergodic, minimal homeomorphism}.
For any A ∈ E , dimnuc A <∞⇐⇒ A is Z-stable⇐⇒ A has tracialm-comparison for some m ∈ N.
Moreover, the regularity properties ensure classification by orderedK-theory in this case. (Countable structures are sufficient forclassification since T(A) is a singleton for each A.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 8 / 20
![Page 18: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/18.jpg)
Dimension and C∗-algebraic regularity
THEOREM (by many hands)Let
E = {C(X) oα Z | X compact, metrizable, infinite,α induced by a uniquely ergodic, minimal homeomorphism}.
For any A ∈ E , dimnuc A <∞⇐⇒ A is Z-stable⇐⇒ A has tracialm-comparison for some m ∈ N.
Moreover, the regularity properties ensure classification by orderedK-theory in this case.
(Countable structures are sufficient forclassification since T(A) is a singleton for each A.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 8 / 20
![Page 19: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/19.jpg)
Dimension and C∗-algebraic regularity
THEOREM (by many hands)Let
E = {C(X) oα Z | X compact, metrizable, infinite,α induced by a uniquely ergodic, minimal homeomorphism}.
For any A ∈ E , dimnuc A <∞⇐⇒ A is Z-stable⇐⇒ A has tracialm-comparison for some m ∈ N.
Moreover, the regularity properties ensure classification by orderedK-theory in this case. (Countable structures are sufficient forclassification since T(A) is a singleton for each A.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 8 / 20
![Page 20: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/20.jpg)
Dynamic versions of dimension and regularity
Dimension and C∗-algebraic regularity
Dynamic versions of dimension and regularity
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 9 / 20
![Page 21: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/21.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet X be compact, metrizable, infinite, and α : Z y X an action.
Wesay (X,Z, α) has Rokhlin dimension (with single towers) at most n,dimRok (X,Z, α) ≤ n, if the following holds:For any L ∈ N, there is a system
(U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L})
of open subsets such thatI α1(U(i)
l ) = U(i)l+1 for i ∈ {0, . . . , n}, l ∈ {1, . . . ,L− 1}
I for each fixed i ∈ {0, . . . , n} the sets U(i)l are pairwise disjoint
I (U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L}) is an open cover of X.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 10 / 20
![Page 22: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/22.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet X be compact, metrizable, infinite, and α : Z y X an action. Wesay (X,Z, α) has Rokhlin dimension (with single towers) at most n,dimRok (X,Z, α) ≤ n, if the following holds:
For any L ∈ N, there is a system
(U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L})
of open subsets such thatI α1(U(i)
l ) = U(i)l+1 for i ∈ {0, . . . , n}, l ∈ {1, . . . ,L− 1}
I for each fixed i ∈ {0, . . . , n} the sets U(i)l are pairwise disjoint
I (U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L}) is an open cover of X.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 10 / 20
![Page 23: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/23.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet X be compact, metrizable, infinite, and α : Z y X an action. Wesay (X,Z, α) has Rokhlin dimension (with single towers) at most n,dimRok (X,Z, α) ≤ n, if the following holds:For any L ∈ N, there is a system
(U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L})
of open subsets
such thatI α1(U(i)
l ) = U(i)l+1 for i ∈ {0, . . . , n}, l ∈ {1, . . . ,L− 1}
I for each fixed i ∈ {0, . . . , n} the sets U(i)l are pairwise disjoint
I (U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L}) is an open cover of X.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 10 / 20
![Page 24: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/24.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet X be compact, metrizable, infinite, and α : Z y X an action. Wesay (X,Z, α) has Rokhlin dimension (with single towers) at most n,dimRok (X,Z, α) ≤ n, if the following holds:For any L ∈ N, there is a system
(U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L})
of open subsets such thatI α1(U(i)
l ) = U(i)l+1 for i ∈ {0, . . . , n}, l ∈ {1, . . . ,L− 1}
I for each fixed i ∈ {0, . . . , n} the sets U(i)l are pairwise disjoint
I (U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L}) is an open cover of X.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 10 / 20
![Page 25: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/25.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet X be compact, metrizable, infinite, and α : Z y X an action. Wesay (X,Z, α) has Rokhlin dimension (with single towers) at most n,dimRok (X,Z, α) ≤ n, if the following holds:For any L ∈ N, there is a system
(U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L})
of open subsets such thatI α1(U(i)
l ) = U(i)l+1 for i ∈ {0, . . . , n}, l ∈ {1, . . . ,L− 1}
I for each fixed i ∈ {0, . . . , n} the sets U(i)l are pairwise disjoint
I (U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L}) is an open cover of X.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 10 / 20
![Page 26: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/26.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet X be compact, metrizable, infinite, and α : Z y X an action. Wesay (X,Z, α) has Rokhlin dimension (with single towers) at most n,dimRok (X,Z, α) ≤ n, if the following holds:For any L ∈ N, there is a system
(U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L})
of open subsets such thatI α1(U(i)
l ) = U(i)l+1 for i ∈ {0, . . . , n}, l ∈ {1, . . . ,L− 1}
I for each fixed i ∈ {0, . . . , n} the sets U(i)l are pairwise disjoint
I (U(i)l | i ∈ {0, . . . , n}, l ∈ {1, . . . ,L}) is an open cover of X.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 10 / 20
![Page 27: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/27.jpg)
Dynamic versions of dimension and regularity
DEFINITION Let X be compact, metrizable, infinite, and α : Z y X anaction.
We say (X,Z, α) has dynamic dimension at most n,dim(X,Z, α) ≤ n, if the following holds:For any open cover U of X and any L ∈ N, there is a system
(U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L})
of open subsets such thatI α1(U(i)
k,l ) = U(i)k,l+1 for
i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L− 1}I for each fixed i ∈ {0, . . . , n} the sets U(i)
k,l are pairwise disjoint
I (U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L}) is an open
cover of X refining U .
REMARK We think of n + 1 as the number of colors, of K(i) as thenumber of towers of color i, and of L as the length of the towers.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 11 / 20
![Page 28: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/28.jpg)
Dynamic versions of dimension and regularity
DEFINITION Let X be compact, metrizable, infinite, and α : Z y X anaction. We say (X,Z, α) has dynamic dimension at most n,dim(X,Z, α) ≤ n, if the following holds:
For any open cover U of X and any L ∈ N, there is a system
(U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L})
of open subsets such thatI α1(U(i)
k,l ) = U(i)k,l+1 for
i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L− 1}I for each fixed i ∈ {0, . . . , n} the sets U(i)
k,l are pairwise disjoint
I (U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L}) is an open
cover of X refining U .
REMARK We think of n + 1 as the number of colors, of K(i) as thenumber of towers of color i, and of L as the length of the towers.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 11 / 20
![Page 29: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/29.jpg)
Dynamic versions of dimension and regularity
DEFINITION Let X be compact, metrizable, infinite, and α : Z y X anaction. We say (X,Z, α) has dynamic dimension at most n,dim(X,Z, α) ≤ n, if the following holds:For any open cover U of X and any L ∈ N, there is a system
(U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L})
of open subsets
such thatI α1(U(i)
k,l ) = U(i)k,l+1 for
i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L− 1}I for each fixed i ∈ {0, . . . , n} the sets U(i)
k,l are pairwise disjoint
I (U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L}) is an open
cover of X refining U .
REMARK We think of n + 1 as the number of colors, of K(i) as thenumber of towers of color i, and of L as the length of the towers.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 11 / 20
![Page 30: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/30.jpg)
Dynamic versions of dimension and regularity
DEFINITION Let X be compact, metrizable, infinite, and α : Z y X anaction. We say (X,Z, α) has dynamic dimension at most n,dim(X,Z, α) ≤ n, if the following holds:For any open cover U of X and any L ∈ N, there is a system
(U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L})
of open subsets such thatI α1(U(i)
k,l ) = U(i)k,l+1 for
i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L− 1}
I for each fixed i ∈ {0, . . . , n} the sets U(i)k,l are pairwise disjoint
I (U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L}) is an open
cover of X refining U .
REMARK We think of n + 1 as the number of colors, of K(i) as thenumber of towers of color i, and of L as the length of the towers.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 11 / 20
![Page 31: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/31.jpg)
Dynamic versions of dimension and regularity
DEFINITION Let X be compact, metrizable, infinite, and α : Z y X anaction. We say (X,Z, α) has dynamic dimension at most n,dim(X,Z, α) ≤ n, if the following holds:For any open cover U of X and any L ∈ N, there is a system
(U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L})
of open subsets such thatI α1(U(i)
k,l ) = U(i)k,l+1 for
i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L− 1}I for each fixed i ∈ {0, . . . , n} the sets U(i)
k,l are pairwise disjoint
I (U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L}) is an open
cover of X refining U .
REMARK We think of n + 1 as the number of colors, of K(i) as thenumber of towers of color i, and of L as the length of the towers.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 11 / 20
![Page 32: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/32.jpg)
Dynamic versions of dimension and regularity
DEFINITION Let X be compact, metrizable, infinite, and α : Z y X anaction. We say (X,Z, α) has dynamic dimension at most n,dim(X,Z, α) ≤ n, if the following holds:For any open cover U of X and any L ∈ N, there is a system
(U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L})
of open subsets such thatI α1(U(i)
k,l ) = U(i)k,l+1 for
i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L− 1}I for each fixed i ∈ {0, . . . , n} the sets U(i)
k,l are pairwise disjoint
I (U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L}) is an open
cover of X refining U .
REMARK We think of n + 1 as the number of colors, of K(i) as thenumber of towers of color i, and of L as the length of the towers.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 11 / 20
![Page 33: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/33.jpg)
Dynamic versions of dimension and regularity
DEFINITION Let X be compact, metrizable, infinite, and α : Z y X anaction. We say (X,Z, α) has dynamic dimension at most n,dim(X,Z, α) ≤ n, if the following holds:For any open cover U of X and any L ∈ N, there is a system
(U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L})
of open subsets such thatI α1(U(i)
k,l ) = U(i)k,l+1 for
i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L− 1}I for each fixed i ∈ {0, . . . , n} the sets U(i)
k,l are pairwise disjoint
I (U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L}) is an open
cover of X refining U .
REMARK We think of n + 1 as the number of colors, of K(i) as thenumber of towers of color i, and of L as the length of the towers.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 11 / 20
![Page 34: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/34.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system, m ∈ N and U,V ⊂ Xopen subsets.
We say U is m-dominated by V, U -m V, if the following holds:For any compact subset Y ⊂ U, there are a system of open subsets ofY
(U(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
and a system of open subsets of V
(V(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
such thatI for each i, k there is r(i)
k with αr(i)
k(U(i)
k ) ⊂ V(i)k
I for each fixed i, the sets V(i)k are pairwise disjoint
I the U(i)k cover all of Y.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 12 / 20
![Page 35: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/35.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system, m ∈ N and U,V ⊂ Xopen subsets.We say U is m-dominated by V, U -m V, if the following holds:
For any compact subset Y ⊂ U, there are a system of open subsets ofY
(U(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
and a system of open subsets of V
(V(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
such thatI for each i, k there is r(i)
k with αr(i)
k(U(i)
k ) ⊂ V(i)k
I for each fixed i, the sets V(i)k are pairwise disjoint
I the U(i)k cover all of Y.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 12 / 20
![Page 36: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/36.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system, m ∈ N and U,V ⊂ Xopen subsets.We say U is m-dominated by V, U -m V, if the following holds:For any compact subset Y ⊂ U, there are a system of open subsets ofY
(U(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
and a system of open subsets of V
(V(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
such thatI for each i, k there is r(i)
k with αr(i)
k(U(i)
k ) ⊂ V(i)k
I for each fixed i, the sets V(i)k are pairwise disjoint
I the U(i)k cover all of Y.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 12 / 20
![Page 37: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/37.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system, m ∈ N and U,V ⊂ Xopen subsets.We say U is m-dominated by V, U -m V, if the following holds:For any compact subset Y ⊂ U, there are a system of open subsets ofY
(U(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
and a system of open subsets of V
(V(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
such thatI for each i, k there is r(i)
k with αr(i)
k(U(i)
k ) ⊂ V(i)k
I for each fixed i, the sets V(i)k are pairwise disjoint
I the U(i)k cover all of Y.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 12 / 20
![Page 38: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/38.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system, m ∈ N and U,V ⊂ Xopen subsets.We say U is m-dominated by V, U -m V, if the following holds:For any compact subset Y ⊂ U, there are a system of open subsets ofY
(U(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
and a system of open subsets of V
(V(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
such thatI for each i, k there is r(i)
k with αr(i)
k(U(i)
k ) ⊂ V(i)k
I for each fixed i, the sets V(i)k are pairwise disjoint
I the U(i)k cover all of Y.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 12 / 20
![Page 39: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/39.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system, m ∈ N and U,V ⊂ Xopen subsets.We say U is m-dominated by V, U -m V, if the following holds:For any compact subset Y ⊂ U, there are a system of open subsets ofY
(U(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
and a system of open subsets of V
(V(i)k | i ∈ {0, . . . ,m}, k ∈ {1, . . . ,K(i)})
such thatI for each i, k there is r(i)
k with αr(i)
k(U(i)
k ) ⊂ V(i)k
I for each fixed i, the sets V(i)k are pairwise disjoint
I the U(i)k cover all of Y.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 12 / 20
![Page 40: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/40.jpg)
Dynamic versions of dimension and regularity
DEFINITIONWe say (X,Z, α) (α minimal) has dynamic m-comparison, if, wheneverU,V ⊂ X are open subsets with µ(U) < µ(V) for any regular invariantBorel probability measure µ on X, then U -m V.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 13 / 20
![Page 41: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/41.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system.We say (X,Z, α) is dynamically Z-stable, if the following holds:
For any K ∈ N, there are systems
(Vj,k | j, k ∈ {1, . . . ,K}) and (Uk | k ∈ {1, . . . ,K})
of open subsets of X such thatI the sets
⋃k Vj,k are pairwise disjoint for 1 ≤ j ≤ K
I α1(Vj,k) = α1(Vj,k+1) for each 1 ≤ j ≤ K and 1 ≤ k ≤ K − 1I α1(Uk) = α1(Uk+1) for each 1 ≤ k ≤ K − 1I Vj,k ∼ Vj+1,k for each 1 ≤ j ≤ K − 1 and 1 ≤ k ≤ KI for each fixed k, X =
⋃j Vj,k ∪ Uk
I U1 - V1,1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 14 / 20
![Page 42: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/42.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system.We say (X,Z, α) is dynamically Z-stable, if the following holds:
For any K ∈ N, there are systems
(Vj,k | j, k ∈ {1, . . . ,K}) and (Uk | k ∈ {1, . . . ,K})
of open subsets of X
such thatI the sets
⋃k Vj,k are pairwise disjoint for 1 ≤ j ≤ K
I α1(Vj,k) = α1(Vj,k+1) for each 1 ≤ j ≤ K and 1 ≤ k ≤ K − 1I α1(Uk) = α1(Uk+1) for each 1 ≤ k ≤ K − 1I Vj,k ∼ Vj+1,k for each 1 ≤ j ≤ K − 1 and 1 ≤ k ≤ KI for each fixed k, X =
⋃j Vj,k ∪ Uk
I U1 - V1,1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 14 / 20
![Page 43: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/43.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system.We say (X,Z, α) is dynamically Z-stable, if the following holds:
For any K ∈ N, there are systems
(Vj,k | j, k ∈ {1, . . . ,K}) and (Uk | k ∈ {1, . . . ,K})
of open subsets of X such thatI the sets
⋃k Vj,k are pairwise disjoint for 1 ≤ j ≤ K
I α1(Vj,k) = α1(Vj,k+1) for each 1 ≤ j ≤ K and 1 ≤ k ≤ K − 1I α1(Uk) = α1(Uk+1) for each 1 ≤ k ≤ K − 1I Vj,k ∼ Vj+1,k for each 1 ≤ j ≤ K − 1 and 1 ≤ k ≤ KI for each fixed k, X =
⋃j Vj,k ∪ Uk
I U1 - V1,1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 14 / 20
![Page 44: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/44.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system.We say (X,Z, α) is dynamically Z-stable, if the following holds:
For any K ∈ N, there are systems
(Vj,k | j, k ∈ {1, . . . ,K}) and (Uk | k ∈ {1, . . . ,K})
of open subsets of X such thatI the sets
⋃k Vj,k are pairwise disjoint for 1 ≤ j ≤ K
I α1(Vj,k) = α1(Vj,k+1) for each 1 ≤ j ≤ K and 1 ≤ k ≤ K − 1
I α1(Uk) = α1(Uk+1) for each 1 ≤ k ≤ K − 1I Vj,k ∼ Vj+1,k for each 1 ≤ j ≤ K − 1 and 1 ≤ k ≤ KI for each fixed k, X =
⋃j Vj,k ∪ Uk
I U1 - V1,1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 14 / 20
![Page 45: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/45.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system.We say (X,Z, α) is dynamically Z-stable, if the following holds:
For any K ∈ N, there are systems
(Vj,k | j, k ∈ {1, . . . ,K}) and (Uk | k ∈ {1, . . . ,K})
of open subsets of X such thatI the sets
⋃k Vj,k are pairwise disjoint for 1 ≤ j ≤ K
I α1(Vj,k) = α1(Vj,k+1) for each 1 ≤ j ≤ K and 1 ≤ k ≤ K − 1I α1(Uk) = α1(Uk+1) for each 1 ≤ k ≤ K − 1
I Vj,k ∼ Vj+1,k for each 1 ≤ j ≤ K − 1 and 1 ≤ k ≤ KI for each fixed k, X =
⋃j Vj,k ∪ Uk
I U1 - V1,1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 14 / 20
![Page 46: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/46.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system.We say (X,Z, α) is dynamically Z-stable, if the following holds:
For any K ∈ N, there are systems
(Vj,k | j, k ∈ {1, . . . ,K}) and (Uk | k ∈ {1, . . . ,K})
of open subsets of X such thatI the sets
⋃k Vj,k are pairwise disjoint for 1 ≤ j ≤ K
I α1(Vj,k) = α1(Vj,k+1) for each 1 ≤ j ≤ K and 1 ≤ k ≤ K − 1I α1(Uk) = α1(Uk+1) for each 1 ≤ k ≤ K − 1I Vj,k ∼ Vj+1,k for each 1 ≤ j ≤ K − 1 and 1 ≤ k ≤ K
I for each fixed k, X =⋃
j Vj,k ∪ Uk
I U1 - V1,1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 14 / 20
![Page 47: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/47.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system.We say (X,Z, α) is dynamically Z-stable, if the following holds:
For any K ∈ N, there are systems
(Vj,k | j, k ∈ {1, . . . ,K}) and (Uk | k ∈ {1, . . . ,K})
of open subsets of X such thatI the sets
⋃k Vj,k are pairwise disjoint for 1 ≤ j ≤ K
I α1(Vj,k) = α1(Vj,k+1) for each 1 ≤ j ≤ K and 1 ≤ k ≤ K − 1I α1(Uk) = α1(Uk+1) for each 1 ≤ k ≤ K − 1I Vj,k ∼ Vj+1,k for each 1 ≤ j ≤ K − 1 and 1 ≤ k ≤ KI for each fixed k, X =
⋃j Vj,k ∪ Uk
I U1 - V1,1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 14 / 20
![Page 48: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/48.jpg)
Dynamic versions of dimension and regularity
DEFINITIONLet (X,Z, α) be a compact dynamical system.We say (X,Z, α) is dynamically Z-stable, if the following holds:
For any K ∈ N, there are systems
(Vj,k | j, k ∈ {1, . . . ,K}) and (Uk | k ∈ {1, . . . ,K})
of open subsets of X such thatI the sets
⋃k Vj,k are pairwise disjoint for 1 ≤ j ≤ K
I α1(Vj,k) = α1(Vj,k+1) for each 1 ≤ j ≤ K and 1 ≤ k ≤ K − 1I α1(Uk) = α1(Uk+1) for each 1 ≤ k ≤ K − 1I Vj,k ∼ Vj+1,k for each 1 ≤ j ≤ K − 1 and 1 ≤ k ≤ KI for each fixed k, X =
⋃j Vj,k ∪ Uk
I U1 - V1,1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 14 / 20
![Page 49: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/49.jpg)
Dynamic versions of dimension and regularity
THEOREMLet X be compact, metrizable, infinite, and α : Z y X minimal.
If (X,Z, α) is dynamically Z-stable, then C(X) oα Z is Z-stable.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 15 / 20
![Page 50: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/50.jpg)
Dynamic versions of dimension and regularity
THEOREMLet X be compact, metrizable, infinite, and α : Z y X minimal.If (X,Z, α) is dynamically Z-stable, then C(X) oα Z is Z-stable.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 15 / 20
![Page 51: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/51.jpg)
Dynamic versions of dimension and regularity
THEOREMLet (X,Z, α) be compact, metrizable, and minimal.
If dim(X,Z, α) ≤ m, then (X,Z, α) has m-comparison.
For the proof, one has to construct invariant measures from a systemof open coverings of the form
(U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L})
(as in the definition of dynamic dimension), which become finer andfiner, and for which L becomes larger and larger.
For V ⊂ X open, µ(V) is then defined as a limit along some ultrafilter ofexpressions like
]{l | U(i)k,l ⊂ V}L
.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 16 / 20
![Page 52: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/52.jpg)
Dynamic versions of dimension and regularity
THEOREMLet (X,Z, α) be compact, metrizable, and minimal.If dim(X,Z, α) ≤ m, then (X,Z, α) has m-comparison.
For the proof, one has to construct invariant measures from a systemof open coverings of the form
(U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L})
(as in the definition of dynamic dimension), which become finer andfiner, and for which L becomes larger and larger.
For V ⊂ X open, µ(V) is then defined as a limit along some ultrafilter ofexpressions like
]{l | U(i)k,l ⊂ V}L
.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 16 / 20
![Page 53: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/53.jpg)
Dynamic versions of dimension and regularity
THEOREMLet (X,Z, α) be compact, metrizable, and minimal.If dim(X,Z, α) ≤ m, then (X,Z, α) has m-comparison.
For the proof, one has to construct invariant measures from a systemof open coverings of the form
(U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L})
(as in the definition of dynamic dimension), which become finer andfiner, and for which L becomes larger and larger.
For V ⊂ X open, µ(V) is then defined as a limit along some ultrafilter ofexpressions like
]{l | U(i)k,l ⊂ V}L
.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 16 / 20
![Page 54: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/54.jpg)
Dynamic versions of dimension and regularity
THEOREMLet (X,Z, α) be compact, metrizable, and minimal.If dim(X,Z, α) ≤ m, then (X,Z, α) has m-comparison.
For the proof, one has to construct invariant measures from a systemof open coverings of the form
(U(i)k,l | i ∈ {0, . . . , n}, k ∈ {1, . . . ,K(i)}, l ∈ {1, . . . ,L})
(as in the definition of dynamic dimension), which become finer andfiner, and for which L becomes larger and larger.
For V ⊂ X open, µ(V) is then defined as a limit along some ultrafilter ofexpressions like
]{l | U(i)k,l ⊂ V}L
.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 16 / 20
![Page 55: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/55.jpg)
Dynamic versions of dimension and regularity
THEOREM (Hirshberg–W–Zacharias, 2011)Let (X,Z, α) be compact, metrizable, and minimal. Suppose X is finitedimensional.
Then,dimRok (X,Z, α) ≤ 2(dim X + 1)− 1
anddim(X,Z, α) ≤ 2(dim X + 1)2 − 1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 17 / 20
![Page 56: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/56.jpg)
Dynamic versions of dimension and regularity
THEOREM (Hirshberg–W–Zacharias, 2011)Let (X,Z, α) be compact, metrizable, and minimal. Suppose X is finitedimensional.
Then,dimRok (X,Z, α) ≤ 2(dim X + 1)− 1
anddim(X,Z, α) ≤ 2(dim X + 1)2 − 1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 17 / 20
![Page 57: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/57.jpg)
Dynamic versions of dimension and regularity
THEOREM (Hirshberg–W–Zacharias, 2011)Let (X,Z, α) be compact, metrizable, and minimal. Suppose X is finitedimensional.
Then,dimRok (X,Z, α) ≤ 2(dim X + 1)− 1
anddim(X,Z, α) ≤ 2(dim X + 1)2 − 1.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 17 / 20
![Page 58: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/58.jpg)
Dynamic versions of dimension and regularity
What about more general groups?
For Zd, replace {1, . . . ,L} by {1, . . . ,L}d in definition ofdimRok (X,Zd, α).
In this case, we don’t have a general theorem, but:
EXAMPLE (Matui)
C∗(Penrose tiling) ∼M C(X) oα Z2,
where X is the Cantor set and α is free and minimal.(X,Z2, α) has a factor of form (X × X,Z2, α1 × α2) with α1, α2 bothminimal. From the preceding theorem we get dimRok (X,Z2, α) <∞,hence dimRok (X,Z2, α) <∞ and dimnuc (C∗(Penrose tiling)) <∞.We do not know, however, whether this ensures classifiability.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 18 / 20
![Page 59: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/59.jpg)
Dynamic versions of dimension and regularity
What about more general groups?
For Zd, replace {1, . . . ,L} by {1, . . . ,L}d in definition ofdimRok (X,Zd, α).
In this case, we don’t have a general theorem, but:
EXAMPLE (Matui)
C∗(Penrose tiling) ∼M C(X) oα Z2,
where X is the Cantor set and α is free and minimal.(X,Z2, α) has a factor of form (X × X,Z2, α1 × α2) with α1, α2 bothminimal. From the preceding theorem we get dimRok (X,Z2, α) <∞,hence dimRok (X,Z2, α) <∞ and dimnuc (C∗(Penrose tiling)) <∞.We do not know, however, whether this ensures classifiability.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 18 / 20
![Page 60: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/60.jpg)
Dynamic versions of dimension and regularity
What about more general groups?
For Zd, replace {1, . . . ,L} by {1, . . . ,L}d in definition ofdimRok (X,Zd, α).
In this case, we don’t have a general theorem, but:
EXAMPLE (Matui)
C∗(Penrose tiling) ∼M C(X) oα Z2,
where X is the Cantor set and α is free and minimal.(X,Z2, α) has a factor of form (X × X,Z2, α1 × α2) with α1, α2 bothminimal. From the preceding theorem we get dimRok (X,Z2, α) <∞,hence dimRok (X,Z2, α) <∞ and dimnuc (C∗(Penrose tiling)) <∞.We do not know, however, whether this ensures classifiability.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 18 / 20
![Page 61: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/61.jpg)
Dynamic versions of dimension and regularity
What about more general groups?
For Zd, replace {1, . . . ,L} by {1, . . . ,L}d in definition ofdimRok (X,Zd, α).
In this case, we don’t have a general theorem, but:
EXAMPLE (Matui)
C∗(Penrose tiling) ∼M C(X) oα Z2,
where X is the Cantor set and α is free and minimal.
(X,Z2, α) has a factor of form (X × X,Z2, α1 × α2) with α1, α2 bothminimal. From the preceding theorem we get dimRok (X,Z2, α) <∞,hence dimRok (X,Z2, α) <∞ and dimnuc (C∗(Penrose tiling)) <∞.We do not know, however, whether this ensures classifiability.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 18 / 20
![Page 62: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/62.jpg)
Dynamic versions of dimension and regularity
What about more general groups?
For Zd, replace {1, . . . ,L} by {1, . . . ,L}d in definition ofdimRok (X,Zd, α).
In this case, we don’t have a general theorem, but:
EXAMPLE (Matui)
C∗(Penrose tiling) ∼M C(X) oα Z2,
where X is the Cantor set and α is free and minimal.(X,Z2, α) has a factor of form (X × X,Z2, α1 × α2) with α1, α2 bothminimal.
From the preceding theorem we get dimRok (X,Z2, α) <∞,hence dimRok (X,Z2, α) <∞ and dimnuc (C∗(Penrose tiling)) <∞.We do not know, however, whether this ensures classifiability.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 18 / 20
![Page 63: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/63.jpg)
Dynamic versions of dimension and regularity
What about more general groups?
For Zd, replace {1, . . . ,L} by {1, . . . ,L}d in definition ofdimRok (X,Zd, α).
In this case, we don’t have a general theorem, but:
EXAMPLE (Matui)
C∗(Penrose tiling) ∼M C(X) oα Z2,
where X is the Cantor set and α is free and minimal.(X,Z2, α) has a factor of form (X × X,Z2, α1 × α2) with α1, α2 bothminimal. From the preceding theorem we get dimRok (X,Z2, α) <∞,
hence dimRok (X,Z2, α) <∞ and dimnuc (C∗(Penrose tiling)) <∞.We do not know, however, whether this ensures classifiability.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 18 / 20
![Page 64: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/64.jpg)
Dynamic versions of dimension and regularity
What about more general groups?
For Zd, replace {1, . . . ,L} by {1, . . . ,L}d in definition ofdimRok (X,Zd, α).
In this case, we don’t have a general theorem, but:
EXAMPLE (Matui)
C∗(Penrose tiling) ∼M C(X) oα Z2,
where X is the Cantor set and α is free and minimal.(X,Z2, α) has a factor of form (X × X,Z2, α1 × α2) with α1, α2 bothminimal. From the preceding theorem we get dimRok (X,Z2, α) <∞,hence dimRok (X,Z2, α) <∞
and dimnuc (C∗(Penrose tiling)) <∞.We do not know, however, whether this ensures classifiability.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 18 / 20
![Page 65: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/65.jpg)
Dynamic versions of dimension and regularity
What about more general groups?
For Zd, replace {1, . . . ,L} by {1, . . . ,L}d in definition ofdimRok (X,Zd, α).
In this case, we don’t have a general theorem, but:
EXAMPLE (Matui)
C∗(Penrose tiling) ∼M C(X) oα Z2,
where X is the Cantor set and α is free and minimal.(X,Z2, α) has a factor of form (X × X,Z2, α1 × α2) with α1, α2 bothminimal. From the preceding theorem we get dimRok (X,Z2, α) <∞,hence dimRok (X,Z2, α) <∞ and dimnuc (C∗(Penrose tiling)) <∞.
We do not know, however, whether this ensures classifiability.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 18 / 20
![Page 66: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/66.jpg)
Dynamic versions of dimension and regularity
What about more general groups?
For Zd, replace {1, . . . ,L} by {1, . . . ,L}d in definition ofdimRok (X,Zd, α).
In this case, we don’t have a general theorem, but:
EXAMPLE (Matui)
C∗(Penrose tiling) ∼M C(X) oα Z2,
where X is the Cantor set and α is free and minimal.(X,Z2, α) has a factor of form (X × X,Z2, α1 × α2) with α1, α2 bothminimal. From the preceding theorem we get dimRok (X,Z2, α) <∞,hence dimRok (X,Z2, α) <∞ and dimnuc (C∗(Penrose tiling)) <∞.We do not know, however, whether this ensures classifiability.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 18 / 20
![Page 67: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/67.jpg)
Dynamic versions of dimension and regularity
For G finitely generated with word length metric, one might use BL(e) inplace of {1, . . . ,L}.
In this case, there is a nice relative result:
THEOREM (Bartels–Luck–Reich)Let G be a hyperbolic group acting on its Rips complex X(G acts freely, X/G is compact, X is contractible).
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every g ∈ G and U ∈ U , either gU = U or gU ∩ U = ∅I for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is virtually
cyclic (contains a cyclic subgroup with finite index).
(This plays a crucial role in their proof of the Farrell–Jones conjecturefor hyperbolic groups.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 19 / 20
![Page 68: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/68.jpg)
Dynamic versions of dimension and regularity
For G finitely generated with word length metric, one might use BL(e) inplace of {1, . . . ,L}. In this case, there is a nice relative result:
THEOREM (Bartels–Luck–Reich)Let G be a hyperbolic group acting on its Rips complex X(G acts freely, X/G is compact, X is contractible).
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every g ∈ G and U ∈ U , either gU = U or gU ∩ U = ∅I for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is virtually
cyclic (contains a cyclic subgroup with finite index).
(This plays a crucial role in their proof of the Farrell–Jones conjecturefor hyperbolic groups.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 19 / 20
![Page 69: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/69.jpg)
Dynamic versions of dimension and regularity
For G finitely generated with word length metric, one might use BL(e) inplace of {1, . . . ,L}. In this case, there is a nice relative result:
THEOREM (Bartels–Luck–Reich)Let G be a hyperbolic group acting on its Rips complex X(G acts freely, X/G is compact, X is contractible).
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every g ∈ G and U ∈ U , either gU = U or gU ∩ U = ∅I for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is virtually
cyclic (contains a cyclic subgroup with finite index).
(This plays a crucial role in their proof of the Farrell–Jones conjecturefor hyperbolic groups.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 19 / 20
![Page 70: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/70.jpg)
Dynamic versions of dimension and regularity
For G finitely generated with word length metric, one might use BL(e) inplace of {1, . . . ,L}. In this case, there is a nice relative result:
THEOREM (Bartels–Luck–Reich)Let G be a hyperbolic group acting on its Rips complex X(G acts freely, X/G is compact, X is contractible).
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every g ∈ G and U ∈ U , either gU = U or gU ∩ U = ∅I for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is virtually
cyclic (contains a cyclic subgroup with finite index).
(This plays a crucial role in their proof of the Farrell–Jones conjecturefor hyperbolic groups.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 19 / 20
![Page 71: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/71.jpg)
Dynamic versions of dimension and regularity
For G finitely generated with word length metric, one might use BL(e) inplace of {1, . . . ,L}. In this case, there is a nice relative result:
THEOREM (Bartels–Luck–Reich)Let G be a hyperbolic group acting on its Rips complex X(G acts freely, X/G is compact, X is contractible).
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most d
I for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every g ∈ G and U ∈ U , either gU = U or gU ∩ U = ∅I for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is virtually
cyclic (contains a cyclic subgroup with finite index).
(This plays a crucial role in their proof of the Farrell–Jones conjecturefor hyperbolic groups.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 19 / 20
![Page 72: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/72.jpg)
Dynamic versions of dimension and regularity
For G finitely generated with word length metric, one might use BL(e) inplace of {1, . . . ,L}. In this case, there is a nice relative result:
THEOREM (Bartels–Luck–Reich)Let G be a hyperbolic group acting on its Rips complex X(G acts freely, X/G is compact, X is contractible).
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ U
I for every g ∈ G and U ∈ U , gU ∈ UI for every g ∈ G and U ∈ U , either gU = U or gU ∩ U = ∅I for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is virtually
cyclic (contains a cyclic subgroup with finite index).
(This plays a crucial role in their proof of the Farrell–Jones conjecturefor hyperbolic groups.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 19 / 20
![Page 73: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/73.jpg)
Dynamic versions of dimension and regularity
For G finitely generated with word length metric, one might use BL(e) inplace of {1, . . . ,L}. In this case, there is a nice relative result:
THEOREM (Bartels–Luck–Reich)Let G be a hyperbolic group acting on its Rips complex X(G acts freely, X/G is compact, X is contractible).
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ U
I for every g ∈ G and U ∈ U , either gU = U or gU ∩ U = ∅I for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is virtually
cyclic (contains a cyclic subgroup with finite index).
(This plays a crucial role in their proof of the Farrell–Jones conjecturefor hyperbolic groups.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 19 / 20
![Page 74: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/74.jpg)
Dynamic versions of dimension and regularity
For G finitely generated with word length metric, one might use BL(e) inplace of {1, . . . ,L}. In this case, there is a nice relative result:
THEOREM (Bartels–Luck–Reich)Let G be a hyperbolic group acting on its Rips complex X(G acts freely, X/G is compact, X is contractible).
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every g ∈ G and U ∈ U , either gU = U or gU ∩ U = ∅
I for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is virtuallycyclic (contains a cyclic subgroup with finite index).
(This plays a crucial role in their proof of the Farrell–Jones conjecturefor hyperbolic groups.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 19 / 20
![Page 75: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/75.jpg)
Dynamic versions of dimension and regularity
For G finitely generated with word length metric, one might use BL(e) inplace of {1, . . . ,L}. In this case, there is a nice relative result:
THEOREM (Bartels–Luck–Reich)Let G be a hyperbolic group acting on its Rips complex X(G acts freely, X/G is compact, X is contractible).
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every g ∈ G and U ∈ U , either gU = U or gU ∩ U = ∅I for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is virtually
cyclic (contains a cyclic subgroup with finite index).
(This plays a crucial role in their proof of the Farrell–Jones conjecturefor hyperbolic groups.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 19 / 20
![Page 76: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/76.jpg)
Dynamic versions of dimension and regularity
For G finitely generated with word length metric, one might use BL(e) inplace of {1, . . . ,L}. In this case, there is a nice relative result:
THEOREM (Bartels–Luck–Reich)Let G be a hyperbolic group acting on its Rips complex X(G acts freely, X/G is compact, X is contractible).
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every g ∈ G and U ∈ U , either gU = U or gU ∩ U = ∅I for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is virtually
cyclic (contains a cyclic subgroup with finite index).
(This plays a crucial role in their proof of the Farrell–Jones conjecturefor hyperbolic groups.)
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 19 / 20
![Page 77: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/77.jpg)
Dynamic versions of dimension and regularity
In this picture, our result can be rephrased as follows:
THEOREMLet α be a minimal action of G = Z on the compact, metrizable, finitedimensional, infinite space X.
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every 0 6= g ∈ G and U ∈ U , gU ∩ U = ∅, i.e.,
for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is trivial.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 20 / 20
![Page 78: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/78.jpg)
Dynamic versions of dimension and regularity
In this picture, our result can be rephrased as follows:
THEOREMLet α be a minimal action of G = Z on the compact, metrizable, finitedimensional, infinite space X.
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every 0 6= g ∈ G and U ∈ U , gU ∩ U = ∅, i.e.,
for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is trivial.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 20 / 20
![Page 79: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/79.jpg)
Dynamic versions of dimension and regularity
In this picture, our result can be rephrased as follows:
THEOREMLet α be a minimal action of G = Z on the compact, metrizable, finitedimensional, infinite space X.
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every 0 6= g ∈ G and U ∈ U , gU ∩ U = ∅, i.e.,
for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is trivial.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 20 / 20
![Page 80: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/80.jpg)
Dynamic versions of dimension and regularity
In this picture, our result can be rephrased as follows:
THEOREMLet α be a minimal action of G = Z on the compact, metrizable, finitedimensional, infinite space X.
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most d
I for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every 0 6= g ∈ G and U ∈ U , gU ∩ U = ∅, i.e.,
for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is trivial.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 20 / 20
![Page 81: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/81.jpg)
Dynamic versions of dimension and regularity
In this picture, our result can be rephrased as follows:
THEOREMLet α be a minimal action of G = Z on the compact, metrizable, finitedimensional, infinite space X.
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ U
I for every g ∈ G and U ∈ U , gU ∈ UI for every 0 6= g ∈ G and U ∈ U , gU ∩ U = ∅, i.e.,
for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is trivial.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 20 / 20
![Page 82: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/82.jpg)
Dynamic versions of dimension and regularity
In this picture, our result can be rephrased as follows:
THEOREMLet α be a minimal action of G = Z on the compact, metrizable, finitedimensional, infinite space X.
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ U
I for every 0 6= g ∈ G and U ∈ U , gU ∩ U = ∅, i.e.,for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is trivial.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 20 / 20
![Page 83: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/83.jpg)
Dynamic versions of dimension and regularity
In this picture, our result can be rephrased as follows:
THEOREMLet α be a minimal action of G = Z on the compact, metrizable, finitedimensional, infinite space X.
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every 0 6= g ∈ G and U ∈ U , gU ∩ U = ∅,
i.e.,for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is trivial.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 20 / 20
![Page 84: Dynamics, dimension and classification of C*-algebras...Dynamics, dimension and classification of C -algebras Wilhelm Winter WWU Munster¨ Fields Institute, 10.9.2012 W. Winter (WWU](https://reader036.vdocument.in/reader036/viewer/2022081410/6098d766ec8cfc4bd35452a6/html5/thumbnails/84.jpg)
Dynamic versions of dimension and regularity
In this picture, our result can be rephrased as follows:
THEOREMLet α be a minimal action of G = Z on the compact, metrizable, finitedimensional, infinite space X.
Then, there is d ∈ N such that the following holds:For any L ∈ N there is an open cover U of G× X satisfying
I U has covering number (or dimension) at most dI for every x ∈ X, BL(e)× {x} ⊂ U for some U ∈ UI for every g ∈ G and U ∈ U , gU ∈ UI for every 0 6= g ∈ G and U ∈ U , gU ∩ U = ∅, i.e.,
for every U ∈ U , the subgroup GU = {g ∈ G | gU = U} is trivial.
W. Winter (WWU Munster) Dynamics dimension and classification 10.9.2012 20 / 20