Your search keyword '"Allen, Patrick B."' showing total 10 results

1. Congruences like Atkin's for the partition function

Author

Ahlgren, Scott, Allen, Patrick B., and Tang, Shiang

Subjects

Mathematics - Number Theory

Abstract

Let $p(n)$ be the ordinary partition function. In the 1960s Atkin found a number of examples of congruences of the form $p( Q^3 \ell n+\beta)\equiv0\pmod\ell$ where $\ell$ and $Q$ are prime and $5\leq \ell\leq 31$; these lie in two natural families distinguished by the square class of $1-24\beta\pmod\ell$. In recent decades much work has been done to understand congruences of the form $p(Q^m\ell n+\beta)\equiv 0\pmod\ell$. It is now known that there are many such congruences when $m\geq 4$, that such congruences are scarce (if they exist at all) when $m=1, 2$, and that for $m=0$ such congruences exist only when $\ell=5, 7, 11$. For congruences like Atkin's (when $m=3$), more examples have been found for $5\leq \ell\leq 31$ but little else seems to be known. Here we use the theory of modular Galois representations to prove that for every prime $\ell\geq 5$, there are infinitely many congruences like Atkin's in the first natural family which he discovered and that for at least $17/24$ of the primes $\ell$ there are infinitely many congruences in the second family., Comment: Minor revisions to improve exposition

Published

2021

2. Modularity of $\operatorname{PGL}_2(\mathbb{F}_p)$-representations over totally real fields

Author

Allen, Patrick B., Khare, Chandrashekhar B., and Thorne, Jack A.

Subjects

Mathematics - Number Theory, 11F41, 11F80

Abstract

We study an analogue of Serre's modularity conjecture for projective representations $\overline{\rho}: \operatorname{Gal}(\overline{K} / K) \rightarrow \operatorname{PGL}_2(k)$, where $K$ is a totally real number field. We prove new cases of this conjecture when $k = \mathbb{F}_5$ by using the automorphy lifting theorems over CM fields established in previous work of the authors., Comment: 11 pages. Refereed version

Published

2021

3. Automorphy lifting for residually reducible $l$-adic Galois representations, II

Author

Allen, Patrick B., Newton, James, and Thorne, Jack A.

Subjects

Mathematics - Number Theory

Abstract

We prove new automorphy lifting theorems for residually reducible Galois representations of unitary type in which the residual representation is permitted to have an arbitrary number of irreducible constituents., Comment: Accepted version

Published

2019

4. Modularity of $\operatorname{GL}_2(\mathbb{F}_p)$-representations over CM fields

Author

Allen, Patrick B., Khare, Chandrashekhar, and Thorne, Jack A.

Subjects

Mathematics - Number Theory

Abstract

We prove that many representations $\overline{\rho} : \operatorname{Gal}(\overline{K} / K) \to \operatorname{GL}_2(\mathbb{F}_3)$, where $K$ is a CM field, arise from modular elliptic curves. We prove similar results when the prime $p = 3$ is replaced by $p = 2$ or $p = 5$. As a consequence, we prove that a positive proportion of elliptic curves over any CM field not containing a 5th root of unity are modular., Comment: Minor changes and corrections in response to comments of the referee. This is the accepted manuscript

Published

2019

5. Monodromy for some rank two Galois representations over CM fields

Author

Allen, Patrick B. and Newton, James

Subjects

Mathematics - Number Theory

Abstract

We investigate local-global compatibility for cuspidal automorphic representations $\pi$ for GL(2) over CM fields that are regular algebraic of weight $0$. We prove that for a Dirichlet density one set of primes $l$ and any $\iota : \overline{\mathbf{Q}}_l \cong \mathbf{C}$, the $l$-adic Galois representation attached to $\pi$ and $\iota$ has nontrivial monodromy at any $v \nmid l$ in $F$ at which $\pi$ is special., Comment: 16 pages, refereed version, to appear in Doc. Math. Small correction added to the proof of Lemma 2.3

Published

2019

6. Potential automorphy over CM fields

Author

Allen, Patrick B., Calegari, Frank, Caraiani, Ana, Gee, Toby, Helm, David, Hung, Bao V. Le, Newton, James, Scholze, Peter, Taylor, Richard, and Thorne, Jack A.

Subjects

Mathematics - Number Theory, 11F80, 11F55, 11F75, 11G18

Abstract

Let $F$ be a CM number field. We prove modularity lifting theorems for regular $n$-dimensional Galois representations over $F$ without any self-duality condition. We deduce that all elliptic curves $E$ over $F$ are potentially modular, and furthermore satisfy the Sato--Tate conjecture. As an application of a different sort, we also prove the Ramanujan Conjecture for weight zero cuspidal automorphic representations for $\mathrm{GL}_2(\mathbf{A}_F)$., Comment: A number of details have been included to address the concerns of the referees. The definition of decomposed generic (Def 4.3.1) has been weakened slightly to be in line with the current version of arxiv.org/abs/1909.01898, resulting in a strengthening of a number of our theorems. This is the accepted version of the paper

Published

2018

7. On automorphic points in polarized deformation rings

Author

Allen, Patrick B.

Subjects

Mathematics - Number Theory

Abstract

For a fixed mod $p$ automorphic Galois representation, $p$-adic automorphic Galois representations lifting it determine points in universal deformation space. In the case of modular forms and under some technical conditions, B\"{o}ckle showed that every component of deformation space contains a smooth modular point, which then implies their Zariski density when coupled with the infinite fern of Gouv\^{e}a-Mazur. We generalize B\"{o}ckle's result to the context of polarized Galois representations for CM fields, and to two dimensional Galois representations for totally real fields. More specifically, under assumptions necessary to apply a small $R = \mathbb{T}$ theorem and an assumption on the local mod $p$ representation, we prove that every irreducible component of the universal polarized deformation space contains an automorphic point. When combined with work of Chenevier, this implies new results on the Zariski density of automorphic points in polarized deformation space in dimension three., Comment: Minor changes. Refereed version. To appear in Amer. J. Math

Published

2016

8. Deformations of polarized automorphic Galois representations and adjoint Selmer groups

Author

Allen, Patrick B.

Subjects

Mathematics - Number Theory, 11F80, 11R34, 11F70

Abstract

We prove the vanishing of the geometric Bloch-Kato Selmer group for the adjoint representation of a Galois representation associated to regular algebraic polarized cuspidal automorphic representations under an assumption on the residual image. Using this, we deduce that the localization and completion of a certain universal deformation ring for the residual representation at the characteristic zero point induced from the automorphic representation is formally smooth of the correct dimension. We do this by employing the Taylor-Wiles-Kisin patching method together with Kisin's technique of analyzing the generic fibre of universal deformation rings. Along the way we give a characterization of smooth closed points on the generic fibre of Kisin's potentially semistable local deformation rings in terms of their Weil-Deligne representations., Comment: Added reference to work of Breuil-Hellmann-Schraen. Minor change in assumption (b) of Theorems C and 3.1.3. Added Theorem 3.2.3 and subsection 3.3. Corrected typos and incorporated suggestions of the referee. To appear in Duke Math. J

Published

2014

9. Finiteness of unramified deformation rings

Author

Allen, Patrick B. and Calegari, Frank

Subjects

Mathematics - Number Theory, 11F80, 11F70

Abstract

We prove that the universal unramified deformation ring $R^{\mathrm{unr}}$ of a continuous Galois representation $\overline{\rho}: G_{F^{+}} \rightarrow \mathrm{GL}_n(k)$ (for a totally real field $F^{+}$ and finite field $k$) is finite over $\mathcal{O} = W(k)$ in many cases. We also prove (under similar hypotheses) that the universal deformation ring $R^{\mathrm{univ}}$ is finite over the local deformation ring $R^{\mathrm{loc}}$., Comment: To appear in Algebra & Number Theory

Published

2014

10. Modularity of nearly ordinary 2-adic residually dihedral Galois representations

Author

Allen, Patrick B.

Subjects

Mathematics - Number Theory

Abstract

We prove modularity of some two dimensional, 2-adic Galois representations over totally real fields that are nearly ordinary and that are residually dihedral. We do this by employing the strategy of Skinner and Wiles, using Hida families, together with the 2-adic patching method of Khare and Wintenberger. As an application we deduce modularity of some elliptic curves over totally real fields that have good ordinary or multiplicative reduction at places above 2., Comment: 87 pages. Typos corrected

Published

2013