On cross-intersecting families of independent sets in graphs

Abstract

Let A1,...,Ak be a collection of families of subsets of an n-element set. We say that this collection is cross-intersecting if for any i,j in [k] with i not equal to j, A in Ai and B in Aj implies that the intersection of A and B is nonempty. We consider a theorem of Hilton which gives a best possible upper bound on the sum of the cardinalities of uniform cross-intersecting subfamilies. We formulate a graph-theoretic analogue of Hilton's cross-intersection theorem, similar to the one developed by Holroyd, Spencer and Talbot for the Erdos-Ko-Rado theorem. In particular we build on a result of Borg and Leader for signed sets and prove a theorem for uniform cross-intersecting subfamilies of independent vertex subsets of a disjoint union of complete graphs. We proceed to obtain a result for a much larger class of graphs, namely chordal graphs and propose a conjecture for all graphs. We end by proving this conjecture for the cycle on n vertices.