Spheres arising from multicomplexes
Abstract
In 1992, Thomas Bier introduced a surprisingly simple way to construct a large number of simplicial spheres. He proved that, for any simplicial complex on the vertex set with , the deleted join of with its Alexander dual is a combinatorial sphere. In this paper, we extend Bier's construction to multicomplexes, and study their combinatorial and algebraic properties. We show that all these spheres are shellable and edge decomposable, which yields a new class of many shellable edge decomposable spheres that are not realizable as polytopes. It is also shown that these spheres are related to polarizations and Alexander duality for monomial ideals which appear in commutative algebra theory.
Cite
@article{arxiv.1002.1211,
title = {Spheres arising from multicomplexes},
author = {Satoshi Murai},
journal= {arXiv preprint arXiv:1002.1211},
year = {2011}
}
Comments
20 pages. Improve presentation. To appear in Journal of Combinatorial Theory, Series A