September 27 
ORGANIZATIONAL MEETING 
October 4 
NO MEETING 
October 11 
Nolan Wallach (UC San Diego) Today the main emphasis in local number theory (i.e the Local Langlands correspondence) is on the finite places. In characteristic 0 the infinite place is the "elephant in the room". This is especially true in the Whittaker Theory in which serious difficulties separate the infinite from the finite places. Whittaker models were developed to help the study of Fourier coefficients at cusps of nonholomophic cusp forms (i.e Maass cusp forms) through representation theory. The first of these lectures will start with an explanation of the role of Whittaker models in the theory of automorphic forms. It will continue with a description of the main results. The second lecture will explain the proof of the Whittaker Plancherel Theorem. 
October 18 
Nolan Wallach (UC San Diego) Today the main emphasis in local number theory (i.e the Local Langlands correspondence) is on the finite places. In characteristic 0 the infinite place is the "elephant in the room". This is especially true in the Whittaker Theory in which serious difficulties separate the infinite from the finite places. Whittaker models were developed to help the study of Fourier coefficients at cusps of nonholomophic cusp forms (i.e Maass cusp forms) through representation theory. The first of these lectures will start with an explanation of the role of Whittaker models in the theory of automorphic forms. It will continue with a description of the main results. The second lecture will explain the proof of the Whittaker Plancherel Theorem. 
October 25 
Rachel Newton (Reading) In 1970, Manin observed that the Brauer group Br(X) of a variety X over a number field K can obstruct the Hasse principle on X. In other words, the lack of a Kpoint on X despite the existence of points over every completion of K is sometimes explained by nontrivial elements in Br(X). This socalled BrauerManin obstruction may not always suffice to explain the failure of the Hasse principle but it is known to be sufficient for some classes of varieties (e.g. torsors under connected algebraic groups) and conjectured to be sufficient for rationally connected varieties and K3 surfaces. A zerocycle on X is a formal sum of closed points of X. A rational point of X over K is a zerocycle of degree 1. It is interesting to study the zerocycles of degree 1 on X, as a generalisation of the rational points. Yongqi Liang has shown that for rationally connected varieties, sufficiency of the BrauerManin obstruction to the Hasse principle for rational points over all finite extensions of K implies sufficiency of the BrauerManin obstruction to the Hasse principle for zerocycles of degree 1 over K. In this talk, I will discuss joint work with Francesca Balestrieri where we extend Liang's result to Kummer varieties. 
November 1 
NO MEETING 
November 8 
Daniel Le (Toronto); 12pm in APM 7421  no pretalk A conjecture of Serre (now a theorem of Gross, Edixhoven, and ColemanVoloch) classifies pairs of weights where one finds modular forms congruent modulo a prime p in terms of local behavior at p. We discuss a generalization of this conjecture in higher rank. A key step in our work is the study of a certain subscheme of Gaitsgory's A^1 affine Grassmannian which shares properties with some affine Springer fibers. This is joint work with B. Le Hung, B. Levin, and S. Morra. 

Joe Ferrara (UC San Diego); 23pm in APM 7421  no pretalk In the 1970's Stark made precise conjectures about the leading term of the Taylor series at s=0 for Artin Lfunctions. In the rank one setting when the order vanishing is exactly one, these conjectures relate the derivative of the Lfunction at s=0 to the logarithm of a unit in an abelian extension of the base field. In this talk, we will define a padic Lfunction and state a padic Stark conjecture in the rank one setting when the base field is a quadratic field. We prove our conjecture in the case when the base field is imaginary quadratic and the prime p is split, and discuss numerical evidence in the other cases. 
November 15 
Nathan Green (UC San Diego) For each function field multiple zeta value (defined by Thakur), we construct a tmodule with an attached logarithmic vector such that a specific coordinate of the logarithmic vector is a rational multiple of that multiple zeta value. We then show that the other coordinates of this logarithmic vector contain hyperderivatives of a deformation of these multiple zeta values, which we call tmotivic multiple zeta values. This allows us to give a logarithmic expression for monomials of multiple zeta values. Joint work with ChiehYu Chang and Yoshinori Mishiba. 
November 22 
NO MEETING (Thanksgiving) 
November 29 
Jacob Tsimerman (Toronto) TBA 
December 6 
Jacob Lurie (Harvard) TBA 