A polynomial ideal associated to any t-(v,k,λ) design

Abstract

We consider ordered pairs (X,B) where X is a finite set of size v and B is some collection of k-element subsets of X such that every t-element subset of X is contained in exactly λ "blocks" B∈ B for some fixed λ. We represent each block B by a zero-one vector cB of length v and explore the ideal I(B) of polynomials in v variables with complex coefficients which vanish on the set \ cB B ∈ B\. After setting up the basic theory, we investigate two parameters related to this ideal: γ1(B) is the smallest degree of a non-trivial polynomial in the ideal I(B) and γ2(B) is the smallest integer s such that I(B) is generated by a set of polynomials of degree at most s. We first prove the general bounds t/2 < γ1(B) γ2(B) k. Examining important families of examples, we find that, for symmetric 2-designs and Steiner systems, we have γ2(B) t. But we expect γ2(B) to be closer to k for less structured designs and we indicate this by constructing infinitely many triple systems satisfying γ2(B)=k.