2009-2010 FAWG Seminar

From PDEwiki

The Fields Analysis Working Group Seminar takes place (usually) at the Fields Institute Room 210 on Thursdays at 12h10. The seminar is co-organized by J. Colliander, R.J. McCann, and L. Guth.

The seminar also has a page at the Fields Institute.

Archive: 2008-2009_FAWG_Seminar, 2007-2008_FAWG_Seminar, 2006-2007_FAWG_Seminar.

Contents 1 Calendar 2 December 10, Burchard, Thursday 12:10-1:00. Fields Institute Room 210 3 December 3, Erdös, Thursday 12:10-1:00. Fields Institute Room 210 4 November 26, Jerrard, Thursday 12:10-1:00, Fields Institute Room 210 5 November 19, Jerrard, Thursday 12:10-1:00, Fields Institute Room 210 6 November 5, Lieb, Thursday 12:10-1:00. Fields Institute Room 210 7 October 29, Colliander, Thursday 12:10-1:00. Fields Institute Room 210 8 October 22, Lee, Thursday 12:10-1:00. Fields Institute Room 210 9 October 15, McCann, Thursday 12:10-1:00. Fields Institute Room 210 10 October 8, Decker, Thursday 12:10-1:00. Fields Institute Room 230 11 October 1, McCann, Thursday 12:10-1:00. Fields Institute Room 230 12 September 24, McCann, Thursday 12:10-1:00. Fields Institute Room 210

Calendar

2008-2009 FAWG Seminar

December 10, Burchard, Thursday 12:10-1:00. Fields Institute Room 210

• Almut Burchard (University of Toronto)

Title: Competing Symmetries and convergence of sequences of random symmetrizations

Abstract: Rearrangements change the shape of a function while preserving its size. The symmetric decreasing rearrangement, which is used for finding extremals of functionals that involve gradients or convolutions, replaces a given function f with a radially decreasing function f ^* .

The symmetric decreasing rearrangement can be approximated by sequences of simpler rearrangements, such as Steiner symmetrizations or polarization. In this talk, I will discuss the convergence of random Steiner symmetrizations to the symmetric decreasing rearrangement. The Competing Symmetries technique of Carlen and Loss will be explained in detail.

References:

A. Volcic, Random Steiner symmetrization of measurable sets.

http://arxiv.org/abs/0902.0462

A. Burchard, Short course on rearrangements (Section 3.2).

http://www.math.utoronto.ca/almut/rearrange.pdf

A. Burchard, Steiner Symmetrization is continous in W^{1,p}

(Theorem 3 and Sections 6-7). GAFA 7 (1997), 823-860.

http://www.math.utoronto.ca/almut/preprints/steiner.ps

December 3, Erdös, Thursday 12:10-1:00. Fields Institute Room 210

• Laszlo Erdös (Munich)

Title: Dynamical formation of correlations in a Bose-Einstein condensate

Abstract: We consider the evolution of N bosons interacting with a repulsive short range pair potential in three dimensions. The potential is scaled according to the Gross-Pitaevskii scaling, i.e. it is given by N²V(N(x_i − x_j)). We monitor the behavior of the solution to the N-particle Schrödinger equation in a spatial window where two particles are close to each other. We prove that within this window a short scale interparticle structure emerges dynamically. The local correlation between the particles is given by the two-body zero energy scattering mode. This is the characteristic structure that was expected to form within a very short initial time layer and to persist for all later times, on the basis of the validity of the Gross-Pitaevskii equation for the evolution of the Bose-Einstein condensate. The zero energy scattering mode emerges after an initial time layer where all higher energy modes disperse out of the spatial window.

This is a joint work with A. Michelangeli and B. Schlein.

The paper of the same title is linked here.

November 26, Jerrard, Thursday 12:10-1:00, Fields Institute Room 210

• Robert Jerrard (University of Toronto)

Title: Partial regularity for hypersurfaces minimizing elliptic parametric integrands Part II

Abstract: I will give one or two expository talks on an old paper of Schoen, Simon, and Almgren in which they prove that hypersurfaces in R^{n+1} that solve certain geometric variational problems are smooth away from a closed set of n-2 dimensional Hausdorff measure 0. The geometric variational problems in question -- the "parametric elliptic integrands" mentioned in the title -- should be thought of as generalizations of the minimal surface problem.

1977_Schoen_Simon_Almgren_Acta, :mathscinet

November 19, Jerrard, Thursday 12:10-1:00, Fields Institute Room 210

• Robert Jerrard (University of Toronto)

Title: Partial regularity for hypersurfaces minimizing elliptic parametric integrands

Abstract: I will give one or two expository talks on an old paper of Schoen, Simon, and Almgren in which they prove that hypersurfaces in R^{n+1} that solve certain geometric variational problems are smooth away from a closed set of n-2 dimensional Hausdorff measure 0. The geometric variational problems in question -- the "parametric elliptic integrands" mentioned in the title -- should be thought of as generalizations of the minimal surface problem.

1977_Schoen_Simon_Almgren_Acta, :mathscinet

November 5, Lieb, Thursday 12:10-1:00. Fields Institute Room 210

• Elliott Lieb (Princeton University)

Title: Mathematics of the Bose Gas: A truly quantum-mechanical many-body problem

Abstract:The peculiar quantum-mechanical properties of the lowest energy states of Bose gases that were predicted in the early days of quantum-mechanics have finally been verified experimentally recently. The mathematical derivation of these properties from Schroedinger's equation has also been difficult, but much progress has been made in the last few years and some of this will be reviewed in this talk. For the low density gas with finite range interactions these properties include the leading order terms for the lowest state energy, the validity of the Gross-Pitaevskii equation in traps (including rapidly rotating traps), Bose-Einstein condensation and superfluidity, and the transition from 3-dimensional behavior to 1-dimensional behavior as the cross-section of the trap decreases. The phenomena described are highly quantum-mechanical, without a classical physics explanation, and it is very satisfying that reality and these mathematical predictions agree.

October 29, Colliander, Thursday 12:10-1:00. Fields Institute Room 210

• J. Colliander (University of Toronto)

Title: Towards partial regularity for nonlinear Schrödinger?

Abstract: What happens at the end of life of an exploding solution of a nonlinear Schrödinger equation? This talk will describe ideas toward a description of the set of points where the solution becomes singular. In particular, a heuristic argument suggesting Hausdorff dimension upper bounds on the singular set will be presented. These upper bounds are saturated by recent examples of blowup solutions with thick singular sets. Comparisons with corresponding results for Navier-Stokes and other equations will also be discussed.

October 22, Lee, Thursday 12:10-1:00. Fields Institute Room 210

• Paul Lee (University of California Berkeley)

Title: The Ma-Trudinger-Wang conditions for natural mechanical actions.

Abstract: The Ma-Trudinger-Wang conditions are important necessary conditions for the regularity theory of optimal transportation problems. In this talk, we will discuss new costs arising from natural mechanical actions which satisfy this condition. This is a joint work with R. McCann.

October 15, McCann, Thursday 12:10-1:00. Fields Institute Room 210

• R.J. McCann (University of Toronto)

Title: An optimal multidimensional price strategy facing informational asymmetry, Part III

Abstract: The monopolist's problem of deciding what types of products to manufacture and how much to charge for each of them, knowing only statistical information about the preferences of an anonymous field of potential buyers, is one of the basic problems analyzed in economic theory. The solution to this problem when space of products and of buyers can each be parameterized by a single variable (say quality X, and income Y) garnered Mirrlees (1971) and Spence (1974) their Nobel prizes in 1996 and 2001, respectively. The multidimensional version of this question is a largely open problem in the calculus of variations described in Basov's book "Multidimensional Screening". I plan to give a couple of lectures explain recent progress with A Figalli and Y-H Kim, which identifies structural conditions on the value b(X,Y) of product X to buyer Y, which reduce this problem to a convex program in a Banach space--- leading to uniqueness and stability results for its solution, confirming robustness of certain economic phenomena observed by Armstrong (1996) such as the desirability for the monopolist to raise prices enough to drive a positive fraction of buyers out of the market, and yielding conjectures about the robustness of other phenomena observed Rochet and Chone (1998),such as the clumping together of products marketed into subsets of various dimension. Ideas from differential geometry / general relativity and optimal transportation are relevant to passage to several dimensions.

October 8, Decker, Thursday 12:10-1:00. Fields Institute Room 230

• Colin Decker (University of Toronto)

Title: Uniqueness of matching in the marriage market.

Abstract: Economists are interested in studying marriage behaviour because it provides insight into a basic economic unit, the household, and because changes in marital behaviour offer insight into other social and economic variables of interest. Given agents described by multi dimensional discrete types, and their preferences, a competitive model of the marriage market describes how individuals will arrange themselves in marriage. Whether this described arrangement is unique is a key question and one that recurs in the study of matching markets.

Choo and Siow (2006) introduced a competitive model of the marriage market that incorporates several important features from economic theory. It is not known whether the Choo-Siow model predicts a unique marital arrangement given the preferences of agents. I will identify sufficient conditions on the preferences of agents to guarantee the existence of a unique marital arrangement. To achieve this result, Robert McCann, Ben Stephens and I adapted the continuity method, commonly used in the study of elliptic PDE, to the setting of isolating the positive roots of a system of polynomial equations.

October 1, McCann, Thursday 12:10-1:00. Fields Institute Room 230

• R.J. McCann (University of Toronto)

Title: An optimal multidimensional price strategy facing informational asymmetry, Part II.

Abstract: See below.

September 24, McCann, Thursday 12:10-1:00. Fields Institute Room 210

• R.J. McCann (University of Toronto)

Title: An optimal multidimensional price strategy facing informational asymmetry.

Abstract: The monopolist's problem of deciding what types of products to manufacture and how much to charge for each of them, knowing only statistical information about the preferences of an anonymous field of potential buyers, is one of the basic problems analyzed in economic theory. The solution to this problem when space of products and of buyers can each be parameterized by a single variable (say quality X, and income Y) garnered Mirrlees (1971) and Spence (1974) their Nobel prizes in 1996 and 2001, respectively. The multidimensional version of this question is a largely open problem in the calculus of variations described in Basov's book "Multidimensional Screening". I plan to give a couple of lectures explain recent progress with A Figalli and Y-H Kim, which identifies structural conditions on the value b(X,Y) of product X to buyer Y, which reduce this problem to a convex program in a Banach space--- leading to uniqueness and stability results for its solution, confirming robustness of certain economic phenomena observed by Armstrong (1996) such as the desirability for the monopolist to raise prices enough to drive a positive fraction of buyers out of the market, and yielding conjectures about the robustness of other phenomena observed Rochet and Chone (1998),such as the clumping together of products marketed into subsets of various dimension. Ideas from differential geometry / general relativity and optimal transportation are relevant to passage to several dimensions.

Organizational discussion and lunch to follow.