Canon Permutation Posets
Abstract
A permutation of the multiset is a {\em canon permutation} if the subsequence formed by the th copy of each element of is identical for all . Canon permutations were introduced by Elizalde and are motivated by pattern-avoiding concepts such as (quasi-)Stirling permutations. He proved that the descent polynomial of canon permutations exhibits a surprising product structure; as a further consequence, it is palindromic. Our goal is to understand canon permutations from the viewpoint of Stanley's -partitions, along the way generalizing Elizalde's definition and results. We start with a labeled poset and extend it in a natural way to canon labelings of the product poset . The resulting descent polynomial has a product structure which arises naturally from the theory of -partitions and simplifies existing proofs. When is graded, this theory also implies palindromicity. We include results on weak descent polynomials, an amphibian construction between canon permutations and multiset permutations, giving rise to \emph{dissonant canon permutations}, as well as -positivity and interpretations of descent polynomials of canon permutations.
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Cite
@article{arxiv.2410.03245,
title = {Canon Permutation Posets},
author = {Matthias Beck and Danai Deligeorgaki},
journal= {arXiv preprint arXiv:2410.03245},
year = {2025}
}
Comments
15 pages