Stretched Schubert coefficients are eventually quasi-polynomial
Abstract
For a permutation , let be the permutation with scaled Lehmer code. For given and integer , the stretched Schubert coefficients are defined as . Our main result is that the function is eventually quasi-polynomial. This proves Kirillov's conjecture (2004), that the generating function for the sequence is rational. For the proof, we use combinatorics of pipe dreams to show that Schubert coefficients are given as an alternating sum of the numbers of integer points in certain polytopes. These polytopes behave nicely under stretching, and we use Ehrhart theory to obtain the result. As a consequence of the proof, we also present new counterexamples to the saturation conjecture for Schubert coefficients, and give computational applications.
Cite
@article{arxiv.2604.27107,
title = {Stretched Schubert coefficients are eventually quasi-polynomial},
author = {Igor Pak and Zachary Slonim},
journal= {arXiv preprint arXiv:2604.27107},
year = {2026}
}
Comments
25 pages