Difference between revisions of "NTSGrad Spring 2018/Abstracts"
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What do problems over local fields tell us about global problems?  What do problems over local fields tell us about global problems?  
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+   bgcolor="#F0A0A0" align="center" style="fontsize:125%"  '''Qiao He'''  
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+   bgcolor="#BCD2EE" align="center"  ''An Introduction to Automorphic Representations  Part II''  
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+  Last time I talked about Tate's thesis, which is actually theory of automorphic representation of GL_1. This time I will continue. First, I will give the definition of automorphic representation, and use Hecke characters and modular forms to motivate the definition. Then I will explain some classical results about automorphic representation, and discuss how automorphic representations are related to Lfunctions.  
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Revision as of 08:32, 30 April 2018
This page contains the titles and abstracts for talks scheduled in the Spring 2018 semester. To go back to the main NTSGrad page, click here.
Contents
Jan 23
Solly Parenti 
RankinSelberg Lfunctions 
What do you get when you cross an Eisenstein series with a cuspform? An Lfunction! Since there's no modular forms course this semester, I will try to squeeze in an entire semester's course on modular forms during the first part of this talk, and then I'll explain the RankinSelberg method of establishing analytic continuation of certain Lfunctions. 
Jan 30
Wanlin Li 
Intersection Theory on Modular Curves 
My talk is based on the paper by François Charles with title "FROBENIUS DISTRIBUTION FOR PAIRS OF ELLIPTIC CURVES AND EXCEPTIONAL ISOGENIES". I will talk about the main theorem and give some intuition and heuristic behind it. I will also give a sketch of the proof.

Feb 6
Dongxi Ye 
Modular Forms, Borcherds Lifting and GrossZagier Type CM Value Formulas 
During the course of past decades, modular forms and Borcherds lifting have been playing an increasingly central role in number theory. In this talk, I will partially justify these by discussing some recent progress on some topics in number theory, such as representations by quadratic forms and GrossZagier type CM value formulas. 
Feb 20
Ewan Dalby 
The Cuspidal Rational Torsion Subgroup of J_0(p) 
I will define the cuspidal rational torsion subgroup for the Jacobian of the modular curve J_0(N) and try to convince you that in the case of J_0(p) it is cyclic of order (p1)/gcd(p1,12). 
Feb 27
Brandon Alberts 
A Brief Introduction to Iwasawa Theory 
A bare bones introduction to the subject of Iwasawa theory, its main results, and some of the tools used to prove them. This talk will serve as both a small taste of the subject and a prep talk for the upcoming Arizona Winter School. 
Mar 13
Solly Parenti 
Do You Even Lift? 
Theta series are generating functions of the number of ways integers can be represented by quadratic forms. Using theta series, we will construct the theta lift as a way to transfer modular(ish) forms between groups. 
Mar 20
Soumya Sankar 
Finite Hypergeometric Functions: An Introduction 
Finite Hypergeometric functions are finite field analogues of classical hypergeometric functions that come up in analysis. I will define these and talk about some ways in which they are useful in studying important number theoretic questions. 
Apr 3
Brandon Alberts 
Certain Unramified Metabelian Extensions Using Lemmermeyer Factorizations 
We use conditions on the discriminant of an abelian extension [math]K/\mathbb{Q}[/math] to classify unramified extensions [math]L/K[/math] normal over [math]\mathbb{Q}[/math] where the (nontrivial) commutator subgroup of [math]\text{Gal}(L/\mathbb{Q})[/math] is contained in its center. This generalizes a result due to Lemmermeyer stating that the quadratic field of discriminant [math]d[/math], [math]\mathbb{Q}( \sqrt{d})[/math], has an unramified extension [math]M/\mathbb{Q}( \sqrt{d})[/math] normal over [math]\mathbb{Q}[/math] with [math]\text{Gal}(M/\mathbb{Q}( \sqrt{d})) = H_8[/math] (the quaternion group) if and only if the discriminant factors [math]d = d_1 d_2 d_3[/math] into a product of three coprime discriminants, at most one of which is negative, satisfying [math]\left(\frac{d_i d_j}{p_k}\right) = 1[/math] for each choice of [math]\{i, j, k\} = \{1, 2, 3\}[/math] and prime [math]p_k  d_k[/math]. 
Apr 10
Niudun Wang 
Nodal Domains of Maass Forms 
HeckeMaass cusp forms on modular surfaces produce nodal lines that divide the surface into disjoint nodal domains. I will briefly talk about this process and estimate the number of nodal domains as the eigenvalues vary. 
Apr 17
Qiao He 
An Introduction to Automorphic Representations 
Automorphic representation is a powerful tool to study Lfunctions. For me, Tate's marvelous thesis is the real beginning of the whole theory. So I will start with Tate's thesis, which is really the automorphic representation of [math]GL_1[/math]. Then I will talk about how to generalize Tate's idea to higher dimensions and explain some ideas behind Langlands program. If there is still time left, I will also mention the trace formula and use it to prove the classical Poisson summation formula. 
Apr 23
Iván Ongay Valverde 
Definability of Frobenius Orbits and a Result on Rational Distance Sets 
In this talk I will present a paper by Héctor Pastén. We will talk about the meaning of definability in a ring and how having a formula that identifies Frobenius orbits can help you show an analogous case of Hilbert's tenth problem (the one asking for an algorithm that tells you if a diophantine equation is solvable or not). Finally, if time permits, we will do an application that solves the existence of a dense set in the plane with rational distances, assuming some form of the ABC conjecture. This last question was proposed by Erdös and Ulam. 
Apr 24
Brandon Boggess 
Moving from Local to Global 
What do problems over local fields tell us about global problems? 
May 1
Qiao He 
An Introduction to Automorphic Representations  Part II 
Last time I talked about Tate's thesis, which is actually theory of automorphic representation of GL_1. This time I will continue. First, I will give the definition of automorphic representation, and use Hecke characters and modular forms to motivate the definition. Then I will explain some classical results about automorphic representation, and discuss how automorphic representations are related to Lfunctions. 