Tiling Spaces are Inverse Limits
Dynamical Systems
2018-07-11 v1 Mathematical Physics
Metric Geometry
math.MP
Abstract
Let M be an arbitrary Riemannian homogeneous space, and let Omega be a space of tilings of M, with finite local complexity (relative to some symmetry group Gamma) and closed in the natural topology. Then Omega is the inverse limit of a sequence of compact finite-dimensional branched manifolds. The branched manifolds are (finite) unions of cells, constructed from the tiles themselves and the group Gamma. This result extends previous results of Anderson and Putnam, of Ormes, Radin and Sadun, of Bellissard, Benedetti and Gambaudo, and of G\"ahler. In particular, the construction in this paper is a natural generalization of G\"ahler's.
Keywords
Cite
@article{arxiv.math/0210179,
title = {Tiling Spaces are Inverse Limits},
author = {Lorenzo Sadun},
journal= {arXiv preprint arXiv:math/0210179},
year = {2018}
}
Comments
Latex, 6 pages, including one embedded figure