Large Cross-free sets in Steiner triple systems

Abstract

A cross-free set of size m in a Steiner triple system (V,B) is three pairwise disjoint m-element subsets X1,X2,X3⊂ V such that no B∈ B intersects all the three Xi-s. We conjecture that for every admissible n there is an STS(n) with a cross-free set of size n-3 3 which if true, is best possible. We prove this conjecture for the case n=18k+3, constructing an STS(18k+3) containing a cross-free set of size 6k. We note that some of the 3-bichromatic STSs, constructed by Colbourn, Dinitz and Rosa, have cross-free sets of size close to 6k (but cannot have size exactly 6k). The constructed STS(18k+3) shows that equality is possible for n=18k+3 in the following result: in every 3-coloring of the blocks of any Steiner triple system STS(n) there is a monochromatic connected component of size at least 2n 3+1 (we conjecture that equality holds for every admissible n). The analogue problem can be asked for r-colorings as well, if r-1 1,3 (mod 6) and r-1 is a prime power, we show that the answer is the same as in case of complete graphs: in every r-coloring of the blocks of any STS(n), there is a monochromatic connected component with at least n r-1 points, and this is sharp for infinitely many n.