English

Pull-back and push-forward functors for holonomic modules over Cherednik algebras

Quantum Algebra 2024-02-29 v1 Algebraic Geometry Representation Theory

Abstract

In this article we continue the study of holonomic modules over sheaves of Cherednik algebras, initiated by the third author in [Tho18]. Working with arbitrary parameters, we first develop a theory of bb-functions to prove that push-forward along open embeddings preserves holonomicity. This implies that pull-back along closed embeddings also preserves holonomicity. We use these facts to show that both push-forward and pull-back under any melys morphism preserves holonomicity. Since duality preserves holonomicity, we deduce that extraordinary push-forward and extraordinary pull-back also exist for holonomic modules. As a consequence, we give a general classification of irreducible holonomic modules similar to the classification of irreducible holonomic D\mathscr{D}-modules as minimal extensions of integrable connections on locally closed subsets. Finally, we prove that ext-groups between holonomic modules are finite-dimensional and explore applications of our work to the classification of aspherical parameters and existence of finite-dimensional modules for sheaves of Cherednik algebras.

Keywords

Cite

@article{arxiv.2402.18210,
  title  = {Pull-back and push-forward functors for holonomic modules over Cherednik algebras},
  author = {Gwyn Bellamy and Pavel Etingof and Daniel Thompson},
  journal= {arXiv preprint arXiv:2402.18210},
  year   = {2024}
}

Comments

61 pages; comments very welcome

R2 v1 2026-06-28T15:03:04.190Z