Mathematics – Number Theory
Scientific paper
2009-07-04
Mathematics
Number Theory
16 pages, 1 table
Scientific paper
Given a lattice L of R^n, a polytope D is called a Delaunay polytope in L if the set of its vertices is S\cap L where S is a sphere having no lattice points in its interior. D is called perfect if the only ellipsoid in R^n that contains S\cap L is exactly S. For a vector v of the Leech lattice \Lambda_{24} we define \Lambda_{24}(v) to be the lattice of vectors of \Lambda_{24} orthogonal to v. We studied Delaunay polytopes of L=\Lambda_{24}(v) for |v|^2<=22. We found some remarkable examples of Delaunay polytopes in such lattices and disproved a number of long standing conjectures. In particular, we discovered: --Perfect Delaunay polytopes of lattice width 4; previously, the largest known width was 2. --Perfect Delaunay polytopes in L, which can be extended to perfect Delaunay polytopes in superlattices of L of the same dimension. --Polytopes that are perfect Delaunay with respect to two lattices $L\subset L'$ of the same dimension. --Perfect Delaunay polytopes D for L with |Aut L|=6|Aut D|: all previously known examples had |Aut L|=|Aut D| or |Aut L|=2|Aut D|. --Antisymmetric perfect Delaunay polytopes in L, which cannot be extended to perfect (n+1)-dimensional centrally symmetric Delaunay polytopes. --Lattices, which have several orbits of non-isometric perfect Delaunay polytopes. Finally, we derived an upper bound for the covering radius of \Lambda_{24}(v)^{*}, which generalizes the Smith bound and we prove that it is met only by \Lambda_{23}^{*}, the best known lattice covering in R^{23}.
Rybnikov Konstantin
Sikiric Mathieu Dutour
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