Chromatic symmetric functions of Dyck paths and q-rook theory

Abstract

The chromatic symmetric function (CSF) of Dyck paths of Stanley and its Shareshian-Wachs q-analogue have important connections to Hessenberg varieties, diagonal harmonics and LLT polynomials. In the, so called, abelian case they are also curiously related to placements of non-attacking rooks by results of Stanley-Stembridge (1993) and Guay-Paquet (2013). For the q-analogue, these results have been generalized by Abreu-Nigro (2020) and Guay-Paquet (private communication), using q-hit numbers. Among our main results is a new proof of Guay-Paquet's elegant identity expressing the q-CSFs in a CSF basis with q-hit coefficients. We further show its equivalence to the Abreu-Nigro identity expanding the q-CSF in the elementary symmetric functions. In the course of our work we establish that the q-hit numbers in these expansions differ from the originally assumed Garsia-Remmel q-hit numbers by certain powers of q. We prove new identities for these q-hit numbers, and establish connections between the three different variants.