Flow polytopes and the space of diagonal harmonics

Abstract

A result of Haglund implies that the (q,t)-bigraded Hilbert series of the space of diagonal harmonics is a (q,t)-Ehrhart function of the flow polytope of a complete graph with netflow vector (-n, 1, …, 1). We study the (q,t)-Ehrhart functions of flow polytopes of threshold graphs with arbitrary netflow vectors. Our results generalize previously known specializations of the mentioned bigraded Hilbert series at t=1, 0, and q-1. As a corollary to our results, we obtain a proof of a conjecture of Armstrong, Garsia, Haglund, Rhoades and Sagan about the (q, q-1)-Ehrhart function of the flow polytope of a complete graph with an arbitrary netflow vector.