An effective Chebotarev density theorem for families of number fields, with an application to l-torsion in class groups
成果类型:
Article
署名作者:
Pierce, Lillian B.; Turnage-Butterbaugh, Caroline L.; Wood, Melanie Matchett
署名单位:
Duke University; Institute for Advanced Study - USA; Carleton College; University of California System; University of California Berkeley
刊物名称:
INVENTIONES MATHEMATICAE
ISSN/ISSBN:
0020-9910
DOI:
10.1007/s00222-019-00915-z
发表日期:
2020
页码:
701-778
关键词:
least prime ideal
elliptic-curves
discriminants
EXTENSIONS
conjecture
zeros
REPRESENTATIONS
Generators
3-part
bounds
摘要:
We prove a new effective Chebotarev density theorem for Galois extensions L/Q that allows one to count small primes (even as small as an arbitrarily small power of the discriminant of L); this theorem holds for the Galois closures of almost all number fields that lie in an appropriate family of field extensions. Previously, applying Chebotarev in such small ranges required assuming the Generalized Riemann Hypothesis. The error term in this new Chebotarev density theorem also avoids the effect of an exceptional zero of the Dedekind zeta function of L, without assuming GRH. We give many different appropriate families, including families of arbitrarily large degree. To do this, we first prove a new effective Chebotarev density theorem that requires a zero-free region of the Dedekind zeta function. Then we prove that almost all number fields in our families yield such a zero-free region. The innovation that allows us to achieve this is a delicate new method for controlling zeroes of certain families of non-cuspidal L-functions. This builds on, and greatly generalizes the applicability of, work of Kowalski and Michel on the average density of zeroes of a family of cuspidal L-functions. A surprising feature of this new method, which we expect will have independent interest, is that we control the number of zeroes in the family of L-functions by bounding the number of certain associated fields with fixed discriminant. As an application of the new Chebotarev density theorem, we prove the first nontrivial upper bounds for l-torsion in class groups, for all integers l >= 1, applicable to infinite families of fields of arbitrarily large degree.