A Shuffle Theorem for Paths Under Any Line
Published Web Location
https://www.cambridge.org/core/journals/forum-of-mathematics-pi/article/shuffle-theorem-for-paths-under-any-line/956194CE18D7DCFF1D1BC3BE3F69659D
Abstract
We generalize the shuffle theorem and its version, as conjectured by Haglund et al. and Bergeron et al. and proven by Carlsson and Mellit, and Mellit, respectively. In our version the Dyck paths on the combinatorial side are replaced by lattice paths lying under a line segment whose x and y intercepts need not be integers, and the algebraic side is given either by a Schiffmann algebra operator formula or an equivalent explicit raising operator formula. We derive our combinatorial identity as the polynomial truncation of an identity of infinite series of characters, expressed in terms of infinite series versions of LLT polynomials. The series identity in question follows from a Cauchy identity for nonsymmetric Hall-Littlewood polynomials.
Many UC-authored scholarly publications are freely available on this site because of the UC's open access policies. Let us know how this access is important for you.