English

Coxeter combinatorics and spherical Schubert geometry

Representation Theory 2022-03-08 v3 Algebraic Geometry Combinatorics

Abstract

For a finite Coxeter system and a subset of its diagram nodes, we define spherical elements (a generalization of Coxeter elements). Conjecturally, for Weyl groups, spherical elements index Schubert varieties in a flag manifold G/B that are spherical for the action of a Levi subgroup. We evidence the conjecture, employing the combinatorics of Demazure modules, and work of R. Avdeev-A. Petukhov, M. Can-R. Hodges, R. Hodges-V. Lakshmibai, P. Karuppuchamy, P. Magyar-J. Weyman-A. Zelevinsky, N. Perrin, J. Stembridge, and B. Tenner. In type A, we establish connections with the key polynomials of A. Lascoux- M.-P. Sch\"utzenberger, multiplicity-freeness, and split-symmetry in algebraic combinatorics. Thereby, we invoke theorems of A. Kohnert, V. Reiner-M. Shimozono, and C. Ross-A. Yong.

Keywords

Cite

@article{arxiv.2007.09238,
  title  = {Coxeter combinatorics and spherical Schubert geometry},
  author = {Reuven Hodges and Alexander Yong},
  journal= {arXiv preprint arXiv:2007.09238},
  year   = {2022}
}

Comments

27 pages, corrections made to examples 1.4, 1.5, 2.16. Minor corrections made in v3. To appear in Journal of Lie Theory

R2 v1 2026-06-23T17:12:29.983Z