Abstract
Anari, Gharan, and Vinzant proved (complete) log-concavity of the basis generating functions for all matroids. From the viewpoint of combinatorial Hodge theory, it is natural to ask whether these functions are “strictly” log-concave for simple matroids. In this paper, we show this strictness for simple graphic matroids, that is, we show that Kirchhoff polynomials of simple graphs are strictly log-concave. Our key observation is that the Kirchhoff polynomial of a complete graph can be seen as the (irreducible) relative invariant of a certain prehomogeneous vector space, which may be independently interesting in its own right. Furthermore, we prove that for any ai∈R>0, a1x1+⋯+anxn∈RM1 satisfies the strong Lefschetz property (moreover, Hodge–Riemann bilinear relation) at degree one of the Artinian Gorenstein algebra RM⁎ associated to a graphic matroid M, which is defined by Maeno and Numata for all matroids.
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