English

Log-concavity in Combinatorics

Combinatorics 2024-04-17 v1

Abstract

We survey some of the mechanisms used to prove that naturally defined sequences in combinatorics are log-concave. Among these mechanisms are Alexandrov's inequality for mixed discriminants, the Alexandrov Fenchel inequality for mixed volumes, Lorentzian polynomials, and the Hard Lefschetz theorem. We use these mechanisms to prove some new log-concavity and extremal results related to partially ordered sets and matroids. We present joint work with Ramon van Handel and Xinmeng Zeng to give a complete characterization for the extremals of the Kahn-Saks inequality. We extend Stanley's inequality for regular matroids to arbitrary matroids using the technology of Lorentzian polynomials. As a result, we provide a new proof of the weakest Mason conjecture. We also prove necessary and sufficient conditions for the Gorenstein ring associated to the basis generating polynomial of a matroid to satisfy Hodge-Riemann relations of degree one on the facets of the positive orthant.

Keywords

Cite

@article{arxiv.2404.10284,
  title  = {Log-concavity in Combinatorics},
  author = {Alan Yan},
  journal= {arXiv preprint arXiv:2404.10284},
  year   = {2024}
}

Comments

written in 2022-2023 as an undergraduate thesis

R2 v1 2026-06-28T15:55:23.817Z