English

Arithmetic Satake compactifications and algebraic Drinfeld modular forms

Algebraic Geometry 2025-01-09 v2

Abstract

In this article we construct the arithmetic Satake compactification of the Drinfeld moduli schemes of arbitrary rank over the ring of integers of any global function field away from the level structure, and show that the universal family extends uniquely to a generalized Drinfeld module over the compactification. Using these and functorial properties, we define algebraic Drinfeld modular forms over more general bases and the action of the (prime-to-residue characteristic and level) Hecke algebra. The construction also furnishes many algebraic Drinfeld modular forms obtained from the coefficients of the universal family which are also Hecke eigenforms. Among them we obtain generalized Hasse invariants which are already defined on the arithmetic Satake compactification and not only its special fiber. We use these generalized Hasse invariants to study the geometry of the special fiber. We conjecture that our Satake compactification is Cohen-Macaulay. If this is the case, we establish the Jacquet-Langlands correspondence (mod vv) between Hecke eigensystems of rank rr Drinfeld modular forms and those of algebraic modular forms (in the sense of Gross) attached to a compact inner form of GLrGL_r.

Keywords

Cite

@article{arxiv.2009.13934,
  title  = {Arithmetic Satake compactifications and algebraic Drinfeld modular forms},
  author = {Urs Hartl and Chia-Fu Yu},
  journal= {arXiv preprint arXiv:2009.13934},
  year   = {2025}
}

Comments

v1: 45 pages, v2: 50 pages

R2 v1 2026-06-23T18:52:32.639Z