the tree-bonacci
TRANSCRIPT
![Page 1: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/1.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Tree-Bonacci
Thierry Coulbois
with Xavier Bressaud, Arnaud Hilion, Martin Lustig
Zaragoza, 13 de Julio 2007
Thierry Coulbois The Tree-Bonacci
![Page 2: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/2.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Map QThe Attractive Real Tree of an Iwip AutomorphismConstructing the Repulsive Tree
From the Boundary of Outer Space: the Map Q
Theorem (Levitt-Lustig)
T: R-tree with very small, minimal action of FN by isometries ( i.e.T ∈ CVN) with dense orbits.
∃! Q : ∂FN → T (= T ∪ ∂T ) equivariant
∀un ∈ FN , s.t. (un)n∈N → X ∈ ∂FN
∀P ∈ T , s.t. (unP) converges
⇒ Q(X ) = lim unP.
Other Definition of Q
∀(un)n∈N → X , ∀P ∈ T , [P,Q(X )] =⋃n>0
⋂k>n
[P, ukP]
Thierry Coulbois The Tree-Bonacci
![Page 3: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/3.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Map QThe Attractive Real Tree of an Iwip AutomorphismConstructing the Repulsive Tree
From the Boundary of Outer Space: the Map Q
Theorem (Levitt-Lustig)
T: R-tree with very small, minimal action of FN by isometries ( i.e.T ∈ CVN) with dense orbits.
∃! Q : ∂FN → T (= T ∪ ∂T ) equivariant
∀un ∈ FN , s.t. (un)n∈N → X ∈ ∂FN
∀P ∈ T , s.t. (unP) converges
⇒ Q(X ) = lim unP.
Other Definition of Q
∀(un)n∈N → X , ∀P ∈ T , [P,Q(X )] =⋃n>0
⋂k>n
[P, ukP]
Thierry Coulbois The Tree-Bonacci
![Page 4: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/4.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Map QThe Attractive Real Tree of an Iwip AutomorphismConstructing the Repulsive Tree
From the Boundary of Outer Space: the Map Q
Theorem (Levitt-Lustig)
T: R-tree with very small, minimal action of FN by isometries ( i.e.T ∈ CVN) with dense orbits.
∃! Q : ∂FN → T (= T ∪ ∂T ) equivariant
∀un ∈ FN , s.t. (un)n∈N → X ∈ ∂FN
∀P ∈ T , s.t. (unP) converges
⇒ Q(X ) = lim unP.
Other Definition of Q
∀(un)n∈N → X , ∀P ∈ T , [P,Q(X )] =⋃n>0
⋂k>n
[P, ukP]
Thierry Coulbois The Tree-Bonacci
![Page 5: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/5.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Map QThe Attractive Real Tree of an Iwip AutomorphismConstructing the Repulsive Tree
From the Boundary of Outer Space: the Map Q
Theorem (Levitt-Lustig)
T: R-tree with very small, minimal action of FN by isometries ( i.e.T ∈ CVN) with dense orbits.
∃! Q : ∂FN → T (= T ∪ ∂T ) equivariant
∀un ∈ FN , s.t. (un)n∈N → X ∈ ∂FN
∀P ∈ T , s.t. (unP) converges
⇒ Q(X ) = lim unP.
Other Definition of Q
∀(un)n∈N → X , ∀P ∈ T , [P,Q(X )] =⋃n>0
⋂k>n
[P, ukP]
Thierry Coulbois The Tree-Bonacci
![Page 6: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/6.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Map QThe Attractive Real Tree of an Iwip AutomorphismConstructing the Repulsive Tree
From the Boundary of Outer Space: the Map Q
Theorem (Levitt-Lustig)
T: R-tree with very small, minimal action of FN by isometries ( i.e.T ∈ CVN) with dense orbits.
∃! Q : ∂FN → T (= T ∪ ∂T ) equivariant
∀un ∈ FN , s.t. (un)n∈N → X ∈ ∂FN
∀P ∈ T , s.t. (unP) converges
⇒ Q(X ) = lim unP.
Other Definition of Q
∀(un)n∈N → X , ∀P ∈ T , [P,Q(X )] =⋃n>0
⋂k>n
[P, ukP]
Thierry Coulbois The Tree-Bonacci
![Page 7: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/7.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Map QThe Attractive Real Tree of an Iwip AutomorphismConstructing the Repulsive Tree
From the Boundary of Outer Space: the Map Q
Theorem (Levitt-Lustig)
T: R-tree with very small, minimal action of FN by isometries ( i.e.T ∈ CVN) with dense orbits.
∃! Q : ∂FN → T (= T ∪ ∂T ) equivariant
∀un ∈ FN , s.t. (un)n∈N → X ∈ ∂FN
∀P ∈ T , s.t. (unP) converges
⇒ Q(X ) = lim unP.
Other Definition of Q
∀(un)n∈N → X , ∀P ∈ T , [P,Q(X )] =⋃n>0
⋂k>n
[P, ukP]
Thierry Coulbois The Tree-Bonacci
![Page 8: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/8.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Map QThe Attractive Real Tree of an Iwip AutomorphismConstructing the Repulsive Tree
The Attractive Real Tree of an Iwip Automorphism
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
ϕ ∈ Aut(F3) iwip
ϕ acts on Outer Space
North-South Dynamic on the Closure ofProjectivized Outer Space.
[Tϕ] repulsive fix point of ϕ (attractive of ϕ−1)
Tϕ has a very small minimal action of F3 by isometries withdense orbits.
Thierry Coulbois The Tree-Bonacci
![Page 9: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/9.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Map QThe Attractive Real Tree of an Iwip AutomorphismConstructing the Repulsive Tree
Constructing the Repulsive Tree Tϕ
Find a train-track representative for ϕ−1:
ϕ−1
a 7→ cb 7→ c−1ac 7→ c−1b
f
A 7→ DCB 7→ D−1AC 7→ BD 7→ C−1
Γ universal cover of Γ, f a cover map of f
dn(x , y) = d(f n(x),f n(y))λn
d∞ = lim dn
Tϕ = Γ/d∞, (H = f /d∞)
Thierry Coulbois The Tree-Bonacci
![Page 10: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/10.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Map QThe Attractive Real Tree of an Iwip AutomorphismConstructing the Repulsive Tree
Summing Up
Tϕ has a very small minimal, minimal action of F3 byisometries with dense orbits.
Q : ∂F3 → Tϕ almost continuous.
Thierry Coulbois The Tree-Bonacci
![Page 11: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/11.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = ab
ϕ2(a) = abacϕ3(a) = abacabaϕ4(a) = abacabaabacab
· · ·ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 12: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/12.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abac
ϕ3(a) = abacabaϕ4(a) = abacabaabacab
· · ·ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 13: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/13.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abac
ϕ3(a) = abacabaϕ4(a) = abacabaabacab
· · ·ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 14: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/14.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacaba
ϕ4(a) = abacabaabacab· · ·
ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 15: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/15.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacaba
ϕ4(a) = abacabaabacab· · ·
ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 16: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/16.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacaba
ϕ4(a) = abacabaabacab· · ·
ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 17: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/17.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacaba
ϕ4(a) = abacabaabacab· · ·
ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 18: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/18.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacaba
ϕ4(a) = abacabaabacab· · ·
ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 19: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/19.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacabaϕ4(a) = abacabaabacab
· · ·ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 20: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/20.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacabaϕ4(a) = abacabaabacab
· · ·ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 21: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/21.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacabaϕ4(a) = abacabaabacab
· · ·ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 22: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/22.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacabaϕ4(a) = abacabaabacab
· · ·ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 23: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/23.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacabaϕ4(a) = abacabaabacab
· · ·ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 24: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/24.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacabaϕ4(a) = abacabaabacab
· · ·ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 25: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/25.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacabaϕ4(a) = abacabaabacab
· · ·
ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 26: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/26.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
ϕ(a) = abϕ2(a) = abacϕ3(a) = abacabaϕ4(a) = abacabaabacab
· · ·ϕ∞(a) = abacabaabacababac . . .
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 27: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/27.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 28: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/28.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 29: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/29.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 30: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/30.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 31: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/31.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 32: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/32.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 33: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/33.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 34: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/34.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 35: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/35.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 36: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/36.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 37: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/37.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 38: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/38.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 39: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/39.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 40: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/40.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 41: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/41.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 42: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/42.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 43: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/43.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 44: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/44.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 45: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/45.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 46: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/46.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 47: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/47.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Tribonacci Substitution and its Attractive Fix Point
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
1 1 11 0 00 1 0
λ3 = λ2 +λ+ 1
Attracive Fix Point Xϕ = ϕ∞(a) ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 48: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/48.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectory
and a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 49: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/49.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectory
and a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 50: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/50.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectory
and a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 51: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/51.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectory
and a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 52: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/52.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 53: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/53.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 54: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/54.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 55: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/55.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 56: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/56.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 57: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/57.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 58: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/58.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 59: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/59.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 60: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/60.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 61: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/61.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 62: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/62.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 63: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/63.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 64: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/64.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 65: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/65.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 66: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/66.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 67: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/67.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 68: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/68.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 69: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/69.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 70: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/70.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 71: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/71.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 72: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/72.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 73: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/73.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 74: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/74.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 75: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/75.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 76: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/76.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 77: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/77.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 78: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/78.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 79: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/79.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 80: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/80.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 81: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/81.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 82: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/82.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 83: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/83.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 84: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/84.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 85: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/85.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 86: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/86.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 87: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/87.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 88: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/88.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 89: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/89.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 90: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/90.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
The Rauzy Fractal and the Piecewise Exchange
Each point has afutur trajectoryand a past
Trajectory:sequence of letters
L: set of possiblebi-infinitetrajectories
Q : L→ R iscontinuous
Attracive Fix Point Xϕ ∈ ∂F3
Xϕ = abacabaabacababacabaabacabacabaabacababacabaabac · · ·
Thierry Coulbois The Tree-Bonacci
![Page 91: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/91.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
The Attractive Fix PointThe Rauzy Fractal and the Piecewise Exchange
Summing Up (2)
Tribonacci
ϕ : a 7→ abb 7→ acc 7→ a
ϕ is an Automorphism
Tϕ
Q : ∂F3 → Tϕ almostcontinuous
ϕ is a Substitution
Rauzy Fractal R
Q : L→ R continuous
Goal
Make the two maps Q coincide
Thierry Coulbois The Tree-Bonacci
![Page 92: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/92.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
Attractive LaminationCompact Core of our Real TreeThe Peano in the Rauzy FractalThe Partial Isometries
Attractive Lamination
L set of bi-infinite possible trajectories in the Rauzy Fractal
finite subwords of Z ∈ L are subwords of Xϕ.
L is a Cantor Set.
Attractive Lamination (Bestvina-Feighn-Handel)
L is the Attractive Lamination of ϕ.
Both Q are defined on L
∀Z ∈ L, write Z = X−1Y then
Q(Z ) :=
Q(X ) = Q(Y ) ∈ Tϕ.
Theorem (Coulbois-Hilion-Lustig)
Q : L→ Tϕ is continuous.
Thierry Coulbois The Tree-Bonacci
![Page 93: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/93.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
Attractive LaminationCompact Core of our Real TreeThe Peano in the Rauzy FractalThe Partial Isometries
Attractive Lamination
L set of bi-infinite possible trajectories in the Rauzy Fractal
finite subwords of Z ∈ L are subwords of Xϕ.
L is a Cantor Set.
Attractive Lamination (Bestvina-Feighn-Handel)
L is the Attractive Lamination of ϕ.
Both Q are defined on L
∀Z ∈ L, write Z = X−1Y then
Q(Z ) :=
Q(X ) = Q(Y ) ∈ Tϕ.
Theorem (Coulbois-Hilion-Lustig)
Q : L→ Tϕ is continuous.
Thierry Coulbois The Tree-Bonacci
![Page 94: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/94.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
Attractive LaminationCompact Core of our Real TreeThe Peano in the Rauzy FractalThe Partial Isometries
Attractive Lamination
L set of bi-infinite possible trajectories in the Rauzy Fractal
finite subwords of Z ∈ L are subwords of Xϕ.
L is a Cantor Set.
Attractive Lamination (Bestvina-Feighn-Handel)
L is the Attractive Lamination of ϕ.
Both Q are defined on L
∀Z ∈ L, write Z = X−1Y then
Q(Z ) :=
Q(X ) = Q(Y ) ∈ Tϕ.
Theorem (Coulbois-Hilion-Lustig)
Q : L→ Tϕ is continuous.
Thierry Coulbois The Tree-Bonacci
![Page 95: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/95.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
Attractive LaminationCompact Core of our Real TreeThe Peano in the Rauzy FractalThe Partial Isometries
Attractive Lamination
L set of bi-infinite possible trajectories in the Rauzy Fractal
finite subwords of Z ∈ L are subwords of Xϕ.
L is a Cantor Set.
Attractive Lamination (Bestvina-Feighn-Handel)
L is the Attractive Lamination of ϕ.
Both Q are defined on L
∀Z ∈ L, write Z = X−1Y then Q(Z ) :=Q(X ) = Q(Y ) ∈ Tϕ.
Theorem (Coulbois-Hilion-Lustig)
Q : L→ Tϕ is continuous.
Thierry Coulbois The Tree-Bonacci
![Page 96: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/96.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
Attractive LaminationCompact Core of our Real TreeThe Peano in the Rauzy FractalThe Partial Isometries
Attractive Lamination
L set of bi-infinite possible trajectories in the Rauzy Fractal
finite subwords of Z ∈ L are subwords of Xϕ.
L is a Cantor Set.
Attractive Lamination (Bestvina-Feighn-Handel)
L is the Attractive Lamination of ϕ.
Both Q are defined on L
∀Z ∈ L, write Z = X−1Y then Q(Z ) :=Q(X ) = Q(Y ) ∈ Tϕ.
Theorem (Coulbois-Hilion-Lustig)
Q : L→ Tϕ is continuous.
Thierry Coulbois The Tree-Bonacci
![Page 97: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/97.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
Attractive LaminationCompact Core of our Real TreeThe Peano in the Rauzy FractalThe Partial Isometries
Compact Core of Tϕ
1 L (Attractive Lamination) is compact
2 Q : L→ Tϕ is continuous
Compact Core of Tϕ
K = Q(L) is a compact subtree of Tϕ.
Thierry Coulbois The Tree-Bonacci
![Page 98: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/98.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
Attractive LaminationCompact Core of our Real TreeThe Peano in the Rauzy FractalThe Partial Isometries
Theorem (Bressaud)
The Core K of the tree Tϕ embeds continuously and surjectively tothe Rauzy Fractal.
LQ
Q
>>>
>>>>
K // // R
Thierry Coulbois The Tree-Bonacci
![Page 99: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/99.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
Attractive LaminationCompact Core of our Real TreeThe Peano in the Rauzy FractalThe Partial Isometries
The Peano Curve in the Rauzy Fractal
−10
−5
0
5
10
15
20
−30
−20
−10
0
10
20
−30
−20
−10
0
10
20
30
Thierry Coulbois The Tree-Bonacci
![Page 100: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/100.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
Attractive LaminationCompact Core of our Real TreeThe Peano in the Rauzy FractalThe Partial Isometries
The Peano Curve in the Rauzy Fractal
−10
−5
0
5
10
15
20
−30
−20
−10
0
10
20
−30
−20
−10
0
10
20
30
Thierry Coulbois The Tree-Bonacci
![Page 101: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/101.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
Attractive LaminationCompact Core of our Real TreeThe Peano in the Rauzy FractalThe Partial Isometries
Proof
LQ
Q
>>>
>>>>
K // R
1 Q(Z ) = Q(Z ′) ∈ Tϕ ⇒ Q(Z ) = Q(Z ′) ∈ R.
2 Thus the bottom arrow exist.
3Theorem (Coulbois-Hilion-Lustig)
The topology on K is completely determined by L.
4 Thus the bottom arrow is continuous.
Thierry Coulbois The Tree-Bonacci
![Page 102: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/102.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
Attractive LaminationCompact Core of our Real TreeThe Peano in the Rauzy FractalThe Partial Isometries
Partial Isometries
Definition
Action of a, b and c on Tϕ restrict to partial isometries of K .
L1(K ) set of infinite (on the right) possible trajectories.
Definition of Q
Q : L1(K ) → KX 7→ source of X
Q is continuous.
L(K ): possible bi-infinite trajectories.
Theorem (Coulbois-Hilion-Lustig)
L(K ) = L
Thierry Coulbois The Tree-Bonacci
![Page 103: The Tree-Bonacci](https://reader031.vdocument.in/reader031/viewer/2022012414/616df334c7edf115ce64e5ff/html5/thumbnails/103.jpg)
From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
General Results
T an R tree with a very small minimal action of FN with denseorbits.
[Levitt-Lustig]
Q : ∂FN → T (= T ∪ ∂T ), equivariant, continuous for theobservers’ topology on T .
[Coulbois-Hilion-Lustig]
Dual lamination L(T ) = Z bi-infinite |Z = X−1Y , Q(X ) = Q(Y )L(T ) completely determines T (but may be not the metric)
Thierry Coulbois The Tree-Bonacci
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From the Boundary of Outer SpaceThe Tribonacci Substitution
The Tree-BonacciGeneral Results
General Results (2)
[Coulbois-Hilion-Lustig]
Limit set of T for a basis A: ΩA = Q(L(T )).
Compact Core KA of T : convex hull of ΩA.
System of Isometries (KA,A) completly determines T .
Thierry Coulbois The Tree-Bonacci