Geometric representation of interval exchange maps over algebraic number
  fields

Adamczewski B; Ahmadi O Vega G; Arnoux P; Arnoux P; Arnoux P; Arnoux P; Arnoux P; Avila A; Boshernitzan M; Boshernitzan M D; Calta K Smillie J; Cohen H; F Vivaldi; G Poggiaspalla; Gutkin E; J H Lowenstein; Jacobson N; Kouptsov K L; Lowenstein J H; Lowenstein J H; Pytheas Fogg N; Rauzy G; Yoccoz J-C; Zorich A; Zorich A; Zorich A

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Geometric representation of interval exchange maps over algebraic number fields

Authors: Adamczewski B
Ahmadi O Vega G
Arnoux P
Arnoux P
Arnoux P
Arnoux P
Arnoux P
Avila A
Boshernitzan M
Boshernitzan M D
Calta K Smillie J
Cohen H
F Vivaldi
G Poggiaspalla
Gutkin E
J H Lowenstein
Jacobson N
Kouptsov K L
Lowenstein J H
Lowenstein J H
Pytheas Fogg N
Rauzy G
Yoccoz J-C
Zorich A
Zorich A
Zorich A
Publication date: 8 May 2007
Publisher: 'IOP Publishing'
Doi

Abstract

We consider the restriction of interval exchange transformations to algebraic number fields, which leads to maps on lattices. We characterize renormalizability arithmetically, and study its relationships with a geometrical quantity that we call the drift vector. We exhibit some examples of renormalizable interval exchange maps with zero and non-zero drift vector, and carry out some investigations of their properties. In particular, we look for evidence of the finite decomposition property: each lattice is the union of finitely many orbits.Comment: 34 pages, 8 postscript figure

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