Weston, Tom

Job Title

Associate Professor, Department of Mathematics and Statistics

Last Name

Weston

First Name

Tom

Discipline

Number Theory

Expertise

Arithmetic algebraic geometry, Iwasawa theory of modular forms, deformation theory of Galois representations

Introduction

Professor Weston studies the interplay between L-functions and certain arithmetic objects known as Selmer groups. Selmer groups are generalizations of ideal class groups and the group of rational points on an elliptic curve which distill the information contained in p-adic representations of the absolute Galois group. He has used such relations to enlarge dramatically the number of cases in which one can precisely compute universal deformation rings as in the work of Wiles. Jointly with Robert Pollack of Boston University, he also studies the behavior of L-functions and Selmer groups of modular forms in certain p-adic analytic families. In many cases they are able to show that one can use values of the L-functions (which are relatively computable) to compute Selmer groups (which are a priori very difficult to compute).

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Now showing 1 - 8 of 8

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Power residues of Fourier coefficients of modular forms
(2005-01) Weston, T
Let ρ:G\Q→\GLn(\Ql) be a motivic ℓ-adic Galois representation. For fixed m>1 we initiate an investigation of the density of the set of primes p such that the trace of the image of an arithmetic Frobenius at p under ρ is an m-th power residue modulo p. Based on numerical investigations with modular forms we conjecture (with Ramakrishna) that this density equals 1/m whenever the image of ρ is open. We further conjecture that for such ρ the set of these primes p is independent of any set defined by Cebatorev-style Galois-theoretic conditions (in an appropriate sense). We then compute these densities for certain m in the complementary case of modular forms of CM-type with rational Fourier coefficients; our proofs are a combination of the Cebatorev density theorem (which does apply in the CM case) and reciprocity laws applied to Hecke characters. We also discuss a potential application (suggested by Ramakrishna) to computing inertial degrees at p in abelian extensions of imaginary quadratic fields unramified away from p.
Open Access
Local torsion on elliptic curves and the deformation theory of galois representations
(2008-01) David, C; Weston, T
Open Access
ON ANTICYCLOTOMIC ì-INVARIANTS OF MODULAR FORMS
(2006-01) Pollack, R; Weston, T
Open Access
Iwasawa invariants of galois deformations
(2005-01) Weston, T
Fix a residual ordinary representation :GF→GLn(k) of the absolute Galois group of a number field F. Generalizing work of Greenberg–Vatsal and Emerton–Pollack–Weston, we show that the Iwasawa invariants of Selmer groups of deformations of depends only on and the ramification of the deformation.
Open Access
POWER RESIDUES OF FOURIER COEFFICIENTS OF ELLIPTIC CURVES WITH COMPLEX MULTIPLICATION
(2009-01) Weston, T; Zaurova, E
Fix m greater than one and let E be an elliptic curve over Q with complex multiplication. We formulate conjectures on the density of primes p (congruent to one modulo m) for which the pth Fourier coefficient of E is an mth power modulo p; often these densities differ from the naive expectation of 1/m. We also prove our conjectures for m dividing the number of roots of unity lying in the CM field of E; the most involved case is m = 4 and complex multiplication by Q(i).
Open Access
KIDA’S FORMULA AND CONGRUENCES
(2005-01) Pollack, R; Weston, T
Metadata only
Variation of Iwasawa invariants in Hida families
(2006-01) Emerton, M; Pollack, R; Weston, T
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Explicit unobstructed primes for modular deformation problems of squarefree level
(2005-01) Weston, T
Let f be a newform of weight k3 with Fourier coefficients in a number field K. We give explicit bounds on the set of primes λ of K for which the deformation problem associated to the mod λ Galois representation of f is obstructed. We include some explicit examples.