Rigged Configurations and Catalan, Stretched Parabolic Kostka Numbers and Polynomials: Polynomiality, Unimodality and Log-concavity

Abstract

We will look at the Catalan numbers from the Rigged Configurations point of view originated Kir from an combinatorial analysis of the Bethe Ansatz Equations associated with the higher spin anisotropic Heisenberg models . Our strategy is to take a combinatorial interpretation of Catalan numbers Cn as the number of standard Young tableaux of rectangular shape (n2), or equivalently, as the Kostka number K(n2),12n, as the starting point of research. We observe that the rectangular (or multidimensional) Catalan numbers C(m,n) introduced and studied by P. MacMahon Mc, Su1, see also Su2, can be identified with the Kostka number K(nm),1mn, and therefore can be treated by Rigged Configurations technique. Based on this technique we study the stretched Kostka numbers and polynomials, and give a proof of `` a strong rationality `` of the stretched Kostka polynomials. This result implies a polynomiality property of the stretched Kostka and stretched Littlewood--Richardson coefficients KT, Ras, Ki1. Another application of the Rigged Configuration technique presented, is a new family of counterexamples to Okounkov's log-concavity conjecture Ok. Finally, we apply Rigged Configurations technique to give a combinatorial prove of the unimodality of the principal specialization of the internal product of Schur functions. In fact we prove a combinatorial formula for generalized q-Gaussian polynomials which is a far generalization of the so-called KOH-identity O, as well as it manifests the unimodality property of the q-Gaussian polynomials.