arXiv:math/0701424 Abstract

arXiv:math/0701424 [math.DS]Abstract References Reviews Resources

Topology of (some) tiling spaces without finite local complexity

Published 2007-01-15Version 1

A basic assumption of tiling theory is that adjacent tiles can meet in only a finite number of ways, up to rigid motions. However, there are many interesting tiling spaces that do not have this property. They have "fault lines", along which tiles can slide past one another. We investigate the topology of a certain class of tiling spaces of this type. We show that they can be written as inverse limits of CW complexes, and their Cech cohomology is related to properties of the fault lines.

Comments: 21 pages, 5 figures

Categories: math.DS, math-ph, math.MP

Subjects: 37B50, 52C23, 54F65

Keywords: finite local complexity, tiling spaces, fault lines, basic assumption, cw complexes

Related articles: Most relevant | Search more

arXiv:math/0506054 [math.DS] (Published 2005-06-02, updated 2018-07-06)

Tilings, tiling spaces and topology

Lorenzo Sadun

arXiv:1804.10235 [math.DS] (Published 2018-04-26)

On substitution tilings and Delone sets without finite local complexity

Jeong-Yup Lee, Boris Solomyak

arXiv:math/0210179 [math.DS] (Published 2002-10-11)

Tiling Spaces are Inverse Limits

Lorenzo Sadun

arXiv Analytics

arXiv:math/0701424 [math.DS]Abstract References Reviews Resources

Topology of (some) tiling spaces without finite local complexity

Links

Toolbox

arXiv:math/0701424 [math.DS]AbstractReferencesReviewsResources

Topology of (some) tiling spaces without finite local complexity

Links

Toolbox

arXiv:math/0701424 [math.DS]Abstract References Reviews Resources