Seminars and Colloquia by Series

Series

Random Matrix Models, Non-intersecting random paths, and the Riemann-Hilbert Analysis

Series: School of Mathematics Colloquium
Time: Thursday, November 13, 2014 - 11:00 for 1 hour (actually 50 minutes)
Location: Skiles 005
Speaker: Professor Andre Martinez-Finkelshtein – Universidad de Almería

Random matrix theory (RMT) is a very active area of research and a greatsource of exciting and challenging problems for specialists in manybranches of analysis, spectral theory, probability and mathematicalphysics. The analysis of the eigenvalue distribution of many random matrix ensembles leads naturally to the concepts of determinantal point processes and to their particular case, biorthogonal ensembles, when the main object to study, the correlation kernel, can be written explicitly in terms of two sequences of mutually orthogonal functions.Another source of determinantal point processes is a class of stochasticmodels of particles following non-intersecting paths. In fact, theconnection of these models with the RMT is very tight: the eigenvalues of the so-called Gaussian Unitary Ensemble (GUE) and the distribution ofrandom particles performing a Brownian motion, departing and ending at the origin under condition that their paths never collide are, roughlyspeaking, statistically identical.A great challenge is the description of the detailed asymptotics of these processes when the size of the matrices (or the number of particles) grows infinitely large. This is needed, for instance, for verification of different forms of "universality" in the behavior of these models. One of the rapidly developing tools, based on the matrix Riemann-Hilbert characterization of the correlation kernel, is the associated non-commutative steepest descent analysis of Deift and Zhou.Without going into technical details, some ideas behind this technique will be illustrated in the case of a model of squared Bessel nonintersectingpaths.

Some Results in Sums and Products

Series: Dissertation Defense
Time: Thursday, November 13, 2014 - 10:00 for 1 hour (actually 50 minutes)
Location: Skiles 114
Speaker: Chris Pryby – School of Mathematics, Georgia Tech

We demonstrate new results in additive combinatorics, including a proof of the following conjecture by J. Solymosi: for every epsilon > 0, there exists delta > 0 such that, given n^2 points in a grid formation in R^2, if L is a set of lines in general position such that each line intersects at least n^{1-delta} points of the grid, then |L| < n^epsilon. This result implies a conjecture of Gy. Elekes regarding a uniform statistical version of Freiman's theorem for linear functions with small image sets.

Variational inequalities related to the Monge-Ampere equation

Series: Analysis Seminar
Time: Wednesday, November 12, 2014 - 14:00 for 1 hour (actually 50 minutes)
Location: Skiles 005
Speaker: Diego Maldonado – Kansas State University

We will start with a description of geometric and measure-theoretic objects associated to certain convex functions in R^n. These objects include a quasi-distance and a Borel measure in R^n which render a space of homogeneous type (i.e. a doubling quasi-metric space) associated to such convex functions. We will illustrate how real-analysis techniques in this quasi-metric space can be applied to the regularity theory of convex solutions u to the Monge-Ampere equation det D^2u =f as well as solutions v of the linearized Monge-Ampere equation L_u(v)=g. Finally, we will discuss recent developments regarding the existence of Sobolev and Poincare inequalities on these Monge-Ampere quasi-metric spaces and mention some of their applications.

Fenchel-Nielsen Coordinates on Teichmüller Space

Series: Geometry Topology Student Seminar
Time: Wednesday, November 12, 2014 - 14:00 for 1 hour (actually 50 minutes)
Location: Skiles 006
Speaker: Jamie Conway – Georgia Tech

A surface with negative Euler characteristic has a hyperbolic metric. However, this metric is not unique. We will consider the Teichmüller space of a surface, which is the space of hyperbolic structures up to an equivalence relation. We will discuss the topology of and how to put coordinates on this space. If there is time, we will see that the lengths of 9g-9 curves determine the hyperbolic structure.

Grothendieck's anabelian conjectures

Series: Research Horizons Seminar
Time: Wednesday, November 12, 2014 - 12:00 for 1 hour (actually 50 minutes)
Location: Skiles 005
Speaker: Dr. Kirsten Wickelgren – Georgia Tech Math Department

We will discuss methods for solving polynomial equations with integer solutions using the loops on the space of all complex solutions to the same equations. We will then state generalizations of this method due to A. Grothendieck.

Intuitive Dyadic Calculus

Series: Analysis Working Seminar
Time: Monday, November 10, 2014 - 15:00 for 1 hour (actually 50 minutes)
Location: Skiles 006
Speaker: Robert Rahm – School of Math

We discuss an approach to dyadic lattices (and their applications to harmonic analysis) presented by Lerner and Nazarov in their manuscript, Intutive Dyadic Calculus.

Torsion of curves on locally convex surfaces

Series: Geometry Topology Seminar
Time: Monday, November 10, 2014 - 14:00 for 1 hour (actually 50 minutes)
Location: Skiles 006
Speaker: Mohammad Ghomi – Georgia Tech – ghomi@math.gatech.edu

We prove that the torsion of any smooth closed curve in Euclidean space which bounds a simply connected locally convex surface vanishes at least 4 times (vanishing of torsion means that the first 3 derivatives of the curve are linearly dependent). This answers a question of Rosenberg related to a problem of Yau on characterizing the boundary of positively curved disks in 3-space. Furthermore, our result generalizes the 4 vertex theorem of Sedykh for convex space curves, and thus constitutes a far reaching extension of the classical 4 vertex theorem for planar curves. The proof follows from an extensive study of the structure of convex caps in a locally convex surface.

Embeddings of manifolds and contact manifolds IV

Series: Geometry Topology Working Seminar
Time: Friday, November 7, 2014 - 14:00 for 1 hour (actually 50 minutes)
Location: Skiles 006
Speaker: John Etnyre – Georgia Tech

This is the fourth of several talks discussing embeddings of manifolds. I will discuss some general results for smooth manifolds, but focus on embeddings of contact manifolds into other contact manifolds. Particular attention will be paid to embeddings of contact 3-manifolds in contact 5-manifolds. I will discuss two approaches to this last problem that are being developed jointly with Yanki Lekili.

Frontiers in Science - Bionic Knees and Elephant Nerves

Series: Other Talks
Time: Thursday, November 6, 2014 - 19:00 for 2 hours
Location: Clary Theatre
Speaker: Max Donelan – Simon Fraser University, Department of Biomedical Physiology and Kinesiology

Please Note:  After the talk there will be a reception and time for visitors to chat with Donelan and each other.

Professor Max Donelan talks about the bionic energy harvester, which uses energy generated from walking to power portable devices. He also discusses his research on the reflexes and nerves of animals, from elephants to shrews.

Singularity formation in Compressible Euler equations (Part II)

Series: PDE Working Seminar
Time: Thursday, November 6, 2014 - 15:00 for 1 hour (actually 50 minutes)
Location: Skiles 005
Speaker: Ronhua Pan – GeorgiaTech – panrh@math.gatech.edu

Compressible Euler equations describe the motion of compressible inviscid fluid. Physically, it states the basic conservation laws of mass, momentum, and energy. As one of the most important examples of nonlinear hyperbolic conservation laws, it is well-known that singularity will form in the solutions of Compressible Euler equations even with small smooth initial data. This talk will discuss some classical results in this direction, including some most recent results for the problem with large initial data.

Georgia Institute of Technology College of Sciences

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