Dimension, depth and zero-divisors of the algebra of basic k-covers of a graph

Abstract

We study the basic k-covers of a bipartite graph G; the algebra they span, first studied by Herzog, is the fiber cone of the Alexander dual of the edge ideal. We characterize when is a domain in terms of the combinatorics of G; if follows from a result of Hochster that when is a domain, it is also Cohen-Macaulay. We then study the dimension of by introducing a geometric invariant of bipartite graphs, the "graphical dimension". We show that the graphical dimension of G is not larger than (), and equality holds in many cases (e.g. when G is a tree, or a cycle). Finally, we discuss applications of this theory to the arithmetical rank.