Hereditary rigidity, separation and density In memory of Professor I.G. Rosenberg

Abstract

We continue the investigation of systems of hereditarily rigid relations started in Couceiro, Haddad, Pouzet and Sch\"olzel [1]. We observe that on a set V with m elements, there is a hereditarily rigid set R made of n tournaments if and only if m(m-1)≤ 2n. We ask if the same inequality holds when the tournaments are replaced by linear orders. This problem has an equivalent formulation in terms of separation of linear orders. Let h Lin(m) be the least cardinal n such that there is a family R of n linear orders on an m-element set V such that any two distinct ordered pairs of distinct elements of V are separated by some member of R, then 2 (m(m-1))≤ h Lin(m) with equality if m≤ 7. We ask whether the equality holds for every m. We prove that h Lin(m+1)≤ h Lin(m)+1. If V is infinite, we show that h Lin(m)= 0 for m≤ 20. More generally, we prove that the two equalities h Lin(m)= log2 (m)= d( Lin(V)) hold, where 2 (m) is the least cardinal μ such that m≤ 2μ, and d( Lin(V)) is the topological density of the set Lin(V) of linear orders on V (viewed as a subset of the power set P(V× V) equipped with the product topology). These equalities follow from the Generalized Continuum Hypothesis, but we do not know whether they hold without any set theoretical hypothesis.