Coloring the Voronoi tessellation of lattices

Mathieu Dutour Sikirić; David A. Madore; Philippe Moustrou; Frank Vallentin

doi:10.1112/jlms.12456

Coloring the Voronoi tessellation of lattices

Mathieu Dutour Sikirić
, David A. Madore
, Philippe Moustrou
, Frank Vallentin

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper we define the chromatic number of a lattice: It is the least number of colors one needs to color the interiors of the cells of the Voronoi tessellation of a lattice so that no two cells sharing a facet are of the same color. We compute the chromatic number of the root lattices, their duals, and of the Leech lattice, we consider the chromatic number of lattices of Voronoi's first kind, and we investigate the asymptotic behavior of the chromatic number of lattices when the dimension tends to infinity. We introduce a spectral lower bound for the chromatic number of lattices in spirit of Hoffman's bound for finite graphs. We compute this bound for the root lattices and relate it to the character theory of the corresponding Lie groups.

Original language	English
Pages (from-to)	1135-1171
Number of pages	37
Journal	Journal of the London Mathematical Society
Volume	104
Issue number	3
DOIs	https://doi.org/10.1112/jlms.12456
Publication status	Published - 1 Oct 2021

Keywords

05C15
52C07

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10.1112/jlms.12456

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title = "Coloring the Voronoi tessellation of lattices",

abstract = "In this paper we define the chromatic number of a lattice: It is the least number of colors one needs to color the interiors of the cells of the Voronoi tessellation of a lattice so that no two cells sharing a facet are of the same color. We compute the chromatic number of the root lattices, their duals, and of the Leech lattice, we consider the chromatic number of lattices of Voronoi's first kind, and we investigate the asymptotic behavior of the chromatic number of lattices when the dimension tends to infinity. We introduce a spectral lower bound for the chromatic number of lattices in spirit of Hoffman's bound for finite graphs. We compute this bound for the root lattices and relate it to the character theory of the corresponding Lie groups.",

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author = "\{Dutour Sikiri{\'c}\}, Mathieu and Madore, \{David A.\} and Philippe Moustrou and Frank Vallentin",

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AU - Dutour Sikirić, Mathieu

AU - Madore, David A.

AU - Moustrou, Philippe

AU - Vallentin, Frank

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N2 - In this paper we define the chromatic number of a lattice: It is the least number of colors one needs to color the interiors of the cells of the Voronoi tessellation of a lattice so that no two cells sharing a facet are of the same color. We compute the chromatic number of the root lattices, their duals, and of the Leech lattice, we consider the chromatic number of lattices of Voronoi's first kind, and we investigate the asymptotic behavior of the chromatic number of lattices when the dimension tends to infinity. We introduce a spectral lower bound for the chromatic number of lattices in spirit of Hoffman's bound for finite graphs. We compute this bound for the root lattices and relate it to the character theory of the corresponding Lie groups.

AB - In this paper we define the chromatic number of a lattice: It is the least number of colors one needs to color the interiors of the cells of the Voronoi tessellation of a lattice so that no two cells sharing a facet are of the same color. We compute the chromatic number of the root lattices, their duals, and of the Leech lattice, we consider the chromatic number of lattices of Voronoi's first kind, and we investigate the asymptotic behavior of the chromatic number of lattices when the dimension tends to infinity. We introduce a spectral lower bound for the chromatic number of lattices in spirit of Hoffman's bound for finite graphs. We compute this bound for the root lattices and relate it to the character theory of the corresponding Lie groups.

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SP - 1135

EP - 1171

JO - Journal of the London Mathematical Society

JF - Journal of the London Mathematical Society

IS - 3

ER -

Coloring the Voronoi tessellation of lattices

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