English

On the Brumer-Stark Conjecture

Number Theory 2022-09-07 v3

Abstract

Let H/FH/F be a finite abelian extension of number fields with FF totally real and HH a CM field. Let SS and TT be disjoint finite sets of places of FF satisfying the standard conditions. The Brumer-Stark conjecture states that the Stickelberger element ΘS,TH/F\Theta^{H/F}_{S, T} annihilates the TT-smoothed class group ClT(H)\text{Cl}^T(H). We prove this conjecture away from p=2p=2, that is, after tensoring with Z[1/2]\mathbf{Z}[1/2]. We prove a stronger version of this result conjectured by Kurihara that gives a formula for the 0th Fitting ideal of the minus part of the Pontryagin dual of ClT(H)Z[1/2]\text{Cl}^T(H) \otimes \mathbf{Z}[1/2] in terms of Stickelberger elements. We also show that this stronger result implies Rubin's higher rank version of the Brumer-Stark conjecture, again away from 2. Our technique is a generalization of Ribet's method, building upon on our earlier work on the Gross-Stark conjecture. Here we work with group ring valued Hilbert modular forms as introduced by Wiles. A key aspect of our approach is the construction of congruences between cusp forms and Eisenstein series that are stronger than usually expected, arising as shadows of the trivial zeroes of pp-adic LL-functions. These stronger congruences are essential to proving that the cohomology classes we construct are unramified at pp.

Keywords

Cite

@article{arxiv.2010.00657,
  title  = {On the Brumer-Stark Conjecture},
  author = {Samit Dasgupta and Mahesh Kakde},
  journal= {arXiv preprint arXiv:2010.00657},
  year   = {2022}
}

Comments

99 pages (A reference is updated in the new version)

R2 v1 2026-06-23T18:56:56.924Z