\(\lambda\)-Designs with Two Block Sizes \(II\)

Abstract

An \(\lambda\)-design on \(v\) points is a set of \(v\) subsets (blocks) of a \(v\)-set such that any two distinct blocks meet in exactly \(\lambda\) points and not all of the blocks have the same size. Ryser’s and Woodall’s \(\lambda\)-design conjecture states that all \(\alpha\)-designs can be obtained from symmetric designs by a complementation procedure. In a previous paper, the author established feasibility criteria for the existence of \(\lambda\)-designs with two block sizes in the form of integrality conditions, equations, inequalities, and Diophantine equations involving various parameters of the designs. In that paper, these criteria and a computer were used to prove that the \(\lambda\)-design conjecture is true for all \(\lambda\)-designs with two block sizes with \(\lambda \leq 90\) and \(\lambda \neq 45\). In this paper, we extend these results and prove that the \(\lambda\)-design conjecture is also true for all \(\lambda\)-designs with two block sizes with \(\lambda = 45\) or \(91 \leq \alpha < 150\).