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Monday, November 20, 2023 2:30 pm - 3:30 pm EST (GMT -05:00)

Colloquium

Mikael De La Salle, Université de Lyon

"Variations around the Hilbert transform"

The Hilbert transform is the operator of convolution by the distribution 1/t. It is an emblematic example of a Fourier multiplier. I will present variants on other spaces than the real line, such as matrices, manifolds and groups, and applications to operator algebras, representation theory. I will present more or less recent results obtained in collaboration with Vincent Lafforgue, Tim de Laat, Javier Parcet and Eduardo Tablate.

MC 5501

Tuesday, November 21, 2023 10:00 am - 11:00 am EST (GMT -05:00)

Number Theory Seminar

Nathan Grieve, Acadia University

"On Schmidt's Subspace Theorem, Vojta's height inequalities and algebraic points in projective varieties: recent developments and progress"

I will report on a collection of recent results and ongoing work that surround extensions and applications of Schmidt's Subspace Theorem and Vojta's height inequalities.  As two examples: (i) It is of interest to understand the qualitative features of Diophantine exceptional sets; (ii) It is of interest to understand the extent to which algebraic points of a given bounded degree in a given general type projective variety are not-Zariski dense.  As I will explain, there are several logically equivalent points of departure for these results.  They build on a collection of my past contributions in addition to work of many others.

Online talk: https://uwaterloo.zoom.us/j/98950813087?pwd=SEl1NlNqNHl0QzlYNGJzeDVla204QT09

Tuesday, November 21, 2023 12:00 pm - 1:00 pm EST (GMT -05:00)

Student Number Theory Seminar

Talk #1: Jason Hou, University of Waterloo

"Sieve methods in combinatorics"

In this talk, I will give a formulation for the Turán sieve and a 'simple sieve' in the context of bipartite graphs and apply it to a graph colouring problem.


Talk #2: Adam Jelinsky, University of Waterloo

"Properties of the Pseudo-randomness of a³ mod p²"

In this talk, I will be discussing methods and tactics used to quantify and understand the apparent pseudo-random distribution of a³ mod p², the evidence we have to fit the random model proposed, and the required steps in order to formally prove it.

MC 5403

Tuesday, November 21, 2023 2:00 pm - 3:00 pm EST (GMT -05:00)

Computability Learning Seminar

Andy Zucker, Department of Pure Mathematics, University of Waterloo

"Effective Descriptive Set Theory 6"

We will continue to introduce effective descriptive set theory following Andrew Marks’s notes.

MC 5479

Tuesday, November 21, 2023 2:30 pm - 3:30 pm EST (GMT -05:00)

Differential Geometry Working Seminar

Spiro Karigiannis, Department of Pure Mathematics, University of Waterloo

"Flows of G2 structures"

A G2-structure is a special type of 3-form on an oriented 7-manifold, which determines a Riemannian metric in a nonlinear way. The best class of such 3-forms are those which are parallel with respect to their induced Levi-Civita connections, which is a fully non-linear PDE. More generally, the torsion of a G2-structure is a 2-tensor which quantifies the failure of a G2-structure to be parallel. It is natural to consider geometric flows of G2-structures as a means of starting with a G2-structure with torsion and (hopefully) improving it in some way along the flow. I will begin with an introduction to all of these ideas, and  try to survey some of the results in the field. Then I will talk about recent joint work with Dwivedi and Gianniotis to study a large class of flows of G2-structures. In particular, we explicitly describe all possible second order differential invariants of a G2-structure which can be used to construct a quasi-linear second order flow. Then we find conditions on a subclass of these general flows which are amenable to the deTurck trick for establishing short-time existence and uniqueness.

MC 5403

Tuesday, November 21, 2023 4:30 pm - 5:30 pm EST (GMT -05:00)

Analysis Seminar

Ian Charlesworth, Cardiff University

"Permutation matrices, graph independence over the diagonal, and consequences"

Graph products were first introduced by Green in the context of groups, giving a mixture of direct and free products. They have recently been studied in the contexts of operator algebras and of non-commutative probability theory by M\l{}otkowski, Caspers and Fima, Speicher and Wysocza\'nski, and others. It is interesting to ask how properties of a family of von Neumann algebras are witnessed in a graph product; while free products and tensor products are well understood, their interplay can be quite subtle in this more general setting. With Collins, I showed how conjugation by random unitary matrices in a tensor product of matrix algebras creates asymptotic graph independence, when the unitaries are independent and uniformly distributed but only on particular subalgebras. In this talk, after spending some time introducing the setting, I will discuss how techniques inspired by the work of Au, C\'ebron, Dahlqvist, Gabriel, and Male can be used to make a similar statement about random permutations leading to asymptotic graph independence over the diagonal subalgebra; the combinatorial techniques required involve some interesting subtleties which are not apparent at first glance. I will also discuss some consequences for von Neumann algebras. For example, suppose that $(M_v)_v$ is a collection of finite dimensional algebras. $M_v$ can be embedded into a larger matrix algebra in such a way that it is constant on the diagonal, and the standard matrix units of $M_v$ are embedded as elements whose entries are roots of unity. Then if $M$ is a graph product of the $M_v$, we can find matricial approximations of a generating set which enjoy the same properties, and this in turn allows us to show (using techniques of Shlyakhtenko) that if the if $M$ is diffuse and algebra generated by the $M_v$ within $M$ has vanishing first $L^2$ Betti number then $M$ is strongly 1-bounded in the sense of Jung. This is joint work with de Santiago, Hayes, Jekel, Kunnawalkam Elayavalli, and Nelson.

This seminar will be held both online and in person:

Wednesday, November 22, 2023 2:30 pm - 3:30 pm EST (GMT -05:00)

Logic Seminar

Leo Jimenez, Ohio State University

"Splitting differential equations using Galois theory"

An ordinary algebraic differential equation is said to be internal to the constants if its general solution is obtained as a rational function of finitely many of its solutions and finitely many constant terms. Any such equation has an algebraic group acting as its Galois group. In this talk, I will use decomposition theorems for algebraic groups to show that some internal equations (do not) split into a product of internal equations. The methods are model-theoretic and could be applied to other contexts. This is a joint work in progress with Christine Eagles.

MC 5479

Wednesday, November 22, 2023 3:00 pm - 4:00 pm EST (GMT -05:00)

Algebraic Geometry Working Seminar

Akash Sengupta, Department of Pure Mathematics, University of Waterloo

"Furstenberg sets over finite fields"

A Kakeya set is a subset S of R^n that contains a unit line segment in every direction. The Kakeya conjecture in harmonic analysis states that a Kakeya set S in R^n has Hausdorff dimension n. The Kakeya conjecture is still open, however an analogous statement over finite fields is known due to a beautiful algebraic-geometric proof by Dvir. In this talk, we will consider a generalization of the Kakeya sets over finite fields, which are called Furstenberg sets. Furstenberg sets are subsets of F_q^n which have large intersection with linear spaces in every direction, where F_q is a finite field. We will discuss an algebraic geometric proof of lower bounds on the size of Furstenberg sets, due to Ellenberg-Erman.

MC 5417

Wednesday, November 22, 2023 3:30 pm - 4:30 pm EST (GMT -05:00)

Learning Seminar on Optimal Transport

This learning seminar will consist in a sequence of three meetings, aiming to discuss the basics of the Monge transport problem and the duality theorem of Kantorovich concerning optimal transport. The necessary background on convex analysis will also be reviewed as part of these meetings. The main reference we will follow is Chapter 5 of the monograph "Optimal transport: old and new" by Cedric Villani (Springer 2008).

The first meeting of the learning seminar is on Wednesday November 22, at 3:30 pm. The main presenter will be Sina Hoveida, who is a graduate student in the Department of Management Science and Engineering.

MC 5403

Thursday, November 23, 2023 2:30 pm - 3:30 pm EST (GMT -05:00)

Geometry & Topology Seminar

Freid Tong, Harvard University

"On some new Monge-Ampere functionals and related PDEs"

The Monge-Ampere equation is one of the most important PDE in geometry, and an important tool in the study of Monge-Ampere equations is the Monge-Ampere functional. In this talk, I will discuss a new interesting family of Monge-Ampere type functionals and their relations to some geometric problems. This is based on joint work with S.-T. Yau.

QNC 2501