NTSGrad Spring 2018/Abstracts
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.
Jan 23
Solly Parenti |
Rankin-Selberg L-functions |
What do you get when you cross an Eisenstein series with a cuspform? An L-function! 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 Rankin-Selberg method of establishing analytic continuation of certain L-functions. |
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.
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Feb 6
Dongxi Ye |
Modular Forms, Borcherds Lifting and Gross-Zagier 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 Gross-Zagier 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 (p-1)/gcd(p-1,12). |
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]\displaystyle{ K/\mathbb{Q} }[/math] to classify unramified extensions [math]\displaystyle{ L/K }[/math] normal over [math]\displaystyle{ \mathbb{Q} }[/math] where the (nontrivial) commutator subgroup of [math]\displaystyle{ \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]\displaystyle{ d }[/math], [math]\displaystyle{ \mathbb{Q}( \sqrt{d}) }[/math], has an unramified extension [math]\displaystyle{ M/\mathbb{Q}( \sqrt{d}) }[/math] normal over [math]\displaystyle{ \mathbb{Q} }[/math] with [math]\displaystyle{ \text{Gal}(M/\mathbb{Q}( \sqrt{d})) = H_8 }[/math] (the quaternion group) if and only if the discriminant factors [math]\displaystyle{ d = d_1 d_2 d_3 }[/math] into a product of three coprime discriminants, at most one of which is negative, satisfying [math]\displaystyle{ \left(\frac{d_i d_j}{p_k}\right) = 1 }[/math] for each choice of [math]\displaystyle{ \{i, j, k\} = \{1, 2, 3\} }[/math] and prime [math]\displaystyle{ p_k | d_k }[/math]. |
Apr 10
Niudun Wang |
Nodal Domains of Maass Forms |
Hecke-Maass 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. |