English

0-Hecke modules for row-strict dual immaculate functions

Combinatorics 2025-09-09 v3 Representation Theory

Abstract

We introduce a new basis of quasisymmetric functions, the row-strict dual immaculate functions. We construct a cyclic, indecomposable 0-Hecke algebra module for these functions. Our row-strict immaculate functions are related to the dual immaculate functions of Berg-Bergeron-Saliola-Serrano-Zabrocki (2014-15) by the involution ψ\psi on the ring of quasisymmetric functions. We give an explicit description of the effect of ψ\psi on the associated 0-Hecke modules, via the poset induced by the 0-Hecke action on standard immaculate tableaux. This remarkable poset reveals other 0-Hecke submodules and quotient modules, often cyclic and indecomposable, notably for a row-strict analogue of the extended Schur functions studied in Assaf-Searles (2019). Like the dual immaculate function, the row-strict dual immaculate function is the generating function of a suitable set of tableaux, corresponding to a specific descent set. We give a complete combinatorial and representation-theoretic picture by constructing 0-Hecke modules for the remaining variations on descent sets, and showing that \emph{all} the possible variations for generating functions of tableaux occur as characteristics of the 0-Hecke modules determined by these descent sets.

Keywords

Cite

@article{arxiv.2202.00708,
  title  = {0-Hecke modules for row-strict dual immaculate functions},
  author = {Elizabeth Niese and Sheila Sundaram and Stephanie van Willigenburg and Julianne Vega and Shiyun Wang},
  journal= {arXiv preprint arXiv:2202.00708},
  year   = {2025}
}

Comments

67 pages, 2 figures, 3 tables; minor changes per referee report. To appear in Transactions of the AMS

R2 v1 2026-06-24T09:14:29.440Z