UCSD Number Theory Seminar (Math 209)

Thursday 2-3pm, AP&M 7421

This quarter, most talks will be preceded by a 30-minute "prep talk" for graduate students and postdocs. These will be in AP&M 7421 starting at 1:20pm.
Don't forget to register for Math 209 if you are a graduate student. We are eligible for department funding as long as we maintain sufficient enrollment.

Spring Quarter 2018

For previous quarters' schedule, click here.


April 6 (FRIDAY), 2-3pm in APM 7218

Karol Koziol (Toronto) + pre-talk
Some calculations with higher pro-p-Iwahori cohomology

Let G denote a p-adic reductive group, and I_1 a pro-p-Iwahori subgroup. A classical result of Borel and Bernstein shows that the category of complex G-representations generated by their I_1-invariant vectors is equivalent to the category of modules over the (pro-p-)Iwahori-Hecke algebra H. This makes the algebra H an extremely useful tool in the study of complex representations of G, and thus in the Local Langlands Program. When the field of complex numbers is replaced by a field of characteristic p, the equivalence above no longer holds. However, Schneider has shown that one can recover an equivalence if one passes to derived categories, and upgrades H to a certain differential graded Hecke algebra. We will attempt to understand this equivalence by examining the H-module structure of certain higher I_1-cohomology spaces, with coefficients in mod-p representations of G. If time permits, we'll discuss how these results are compatible with Serre weight conjectures of Herzig and Gee--Herzig--Savitt.

April 12

Claus Sorensen (UCSD) + pre-talk
Local Langlands in rigid families

Motivated by local-global compatibility in the $p$-adic Langlands program, Emerton and Helm (and others) studied how the local Langlands correspondence for $\GL(n)$ can be interpolated in Zariski families. In this talk I will report on joint work with C. Johansson and J. Newton on the interpolation in rigid families. We take our rigid space to be an eigenvariety $Y$ for some definite unitary group $U(n)$ which parametrizes Hecke eigensystems appearing in certain spaces of $p$-adic modular forms. The space $Y$ comes endowed with a natural coherent sheaf $\mathcal{M}$. Our main result is that the dual fibers $\mathcal{M}_y'$ essentially interpolate the local Langlands correspondence at all points $y \in Y$. This make use of certain Bernstein center elements which appear in Scholze's proof of the local Langlands correspondence (and also in work of Chenevier). In the pre-talk I will talk about the local Langlands correspondence, primarily for $\GL(2)$.

April 19

NO MEETING

April 26

Watson Ladd (UC Berkeley) + pre-talk
Lattice methods for paramodular forms

Using Ibukiyama's conjecture on transfers from inner forms of GSp(4) we compute paramodular forms with prime levels up to 400. This is joint work with Jeffery Hein and Gonzalo Tornaria.

May 3

Jesse Elliott (CSU Channel Islands) + pre-talk
Extensions of the prime number theorem and the Riemann hypothesis

We provide two asymptotic continued fraction expansions of the prime counting function. We also develop a "degree" calculus that enables us to strengthen the connections between various reformulations and extensions of the Riemann hypothesis.

May 10

Marc-Hubert Nicole (Aix-Marseille)
TBA

TBA

May 17

Preston Wake (UCLA) + pretalk
Eisenstein ideal with squarefree level

In his influential paper "Modular curves and the Eisenstein ideal", Barry Mazur studied congruences modulo p between cusp forms and the Eisenstein series of weight 2 and prime level N. In particular, he defined the Eisenstein ideal in the relevant Hecke algebra, and showed that it is locally principal. We'll discuss the analogous situation for certain squarefree levels N, and show that, while the Eisenstein ideal may not be locally principal, we can count the minimal number of generators and explain the arithmetic significance of this number. This is joint work with Carl Wang-Erickson.

May 24

Jukka Keranen (UCLA) + pre-talk
L-Functions of Unitary Group Shimura Varieties

We will discuss two different approaches to computing the L-functions of Shimura varieties associated with GU(2,1). Both approaches employ the comparison of the Grothendieck-Lefschetz formula with the Arthur-Selberg trace formula. The first approach, carried out by the author, takes as its starting point the recent work of Laumon and Morel. The second approach is due to Flicker. In both approaches, the principal challenge is that the Shimura varieties in question are non-compact, and one must use cohomology with compact supports. Time permitting, we will discuss the prospects for extending these approaches to the non-compact Shimura varieties associated with higher-rank unitary groups.

May 31

TBA
TBA

TBA

June 7

Shishir Agrawal (UC Berkeley)
TBA

TBA