PDE Geometric Analysis seminar: Difference between revisions

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|September 22
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|Steven Hofmann (U. of Missouri)
|Steven Hofmann (U. of Missouri)
|[[#Steven Hofmann (U. of Missouri) |
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Revision as of 19:58, 18 February 2014

The seminar will be held in room B115 of Van Vleck Hall on Mondays from 3:30pm - 4:30pm, unless indicated otherwise.

Previous PDE/GA seminars

Seminar Schedule Fall 2013

myeongju Chae
date speaker title host(s)
September 9 Greg Drugan (U. of Washington)
Construction of immersed self-shrinkers
Angenent
October 7 Guo Luo (Caltech)

Potentially Singular Solutions of the 3D Incompressible Euler Equations.

Kiselev
November 18 Roman Shterenberg (UAB)

Recent progress in multidimensional periodic and almost-periodic spectral problems.

Kiselev
November 25 Myeongju Chae (Hankyong National University visiting UW)

On the global classical solution of the Keller-Segel-Navier -Stokes system and its asymptotic behavior.

Kiselev
December 2 Xiaojie Wang

Uniqueness of Ricci flow solutions on noncompact manifolds.

Wang
December 16 Antonio Ache(Princeton)

Ricci Curvature and the manifold learning problem. NOTE: Due to final exams, this seminar will be held in B231.

Viaclovsky

Seminar Schedule Spring 2014

date speaker title host(s)
January 14 at 4pm in B139 (TUESDAY), joint with Analysis Jean-Michel Roquejoffre (Toulouse)

Front propagation in the presence of integral diffusion.

Zlatos
February 10 Myoungjean Bae (POSTECH)

Free Boundary Problem related to Euler-Poisson system.

Feldman
February 24 Changhui Tan (Maryland)

Global classical solution and long time behavior of macroscopic flocking models.

Kiselev
March 3 Hongjie Dong (Brown)

Parabolic equations in time-varying domains.

Kiselev
March 10 Hao Jia (University of Chicago)

TBA.

Kiselev
March 31 Alexander Pushnitski (King's College London)

TBA.

Kiselev
April 7 Zoran Grujic (University of Virginia)

TBA.

Kiselev
April 21 Ronghua Pan (Georgia Tech)

TBA.

Kiselev

Seminar Schedule Fall 2014

date speaker title host(s)
September 22 (joint with Analysis Seminar) Steven Hofmann (U. of Missouri)
TBA
Seeger

Abstracts

Greg Drugan (U. of Washington)

Construction of immersed self-shrinkers

Abstract: We describe a procedure for constructing immersed self-shrinking solutions to mean curvature flow. The self-shrinkers we construct have a rotational symmetry, and the construction involves a detailed study of geodesics in the upper-half plane with a conformal metric. This is a joint work with Stephen Kleene.

Guo Luo (Caltech)

Potentially Singular Solutions of the 3D Incompressible Euler Equations

Abstract: Whether the 3D incompressible Euler equations can develop a singularity in finite time from smooth initial data is one of the most challenging problems in mathematical fluid dynamics. This work attempts to provide an affirmative answer to this long-standing open question from a numerical point of view, by presenting a class of potentially singular solutions to the Euler equations computed in axisymmetric geometries. The solutions satisfy a periodic boundary condition along the axial direction and no-flow boundary condition on the solid wall. The equations are discretized in space using a hybrid 6th-order Galerkin and 6th-order finite difference method, on specially designed adaptive (moving) meshes that are dynamically adjusted to the evolving solutions. With a maximum effective resolution of over $(3 \times 10^{12})^{2}$ near the point of singularity, we are able to advance the solution up to $\tau_{2} = 0.003505$ and predict a singularity time of $t_{s} \approx 0.0035056$, while achieving a \emph{pointwise} relative error of $O(10^{-4})$ in the vorticity vector $\omega$ and observing a $(3 \times 10^{8})$-fold increase in the maximum vorticity $\norm{\omega}_{\infty}$. The numerical data is checked against all major blowup (non-blowup) criteria, including Beale-Kato-Majda, Constantin-Fefferman-Majda, and Deng-Hou-Yu, to confirm the validity of the singularity. A careful local analysis also suggests that the blowing-up solution develops a self-similar structure near the point of the singularity, as the singularity time is approached.

Xiaojie Wang(Stony Brook)

Uniqueness of Ricci flow solutions on noncompact manifolds

Abstract: Ricci flow is an important evolution equation of Riemannian metrics. Since it was introduced by R. Hamilton in 1982, it has greatly changed the landscape of riemannian geometry. One of the fundamental question about ricci flow is when is its solution to initial value problem unique. On compact manifold, with arbitrary initial metric, it was confirmed by Hamilton. On noncompact manifold, we only know this is true when further restrictions are imposed to the solution. In this talk, we will discuss various conditions that guarantee the uniqueness. In particular, we will discuss in details with the following uniqueness result. Let $(M,g)$ be a complete noncompact non-collapsing $n$-dimensional riemannian manifold, whose complex sectional curvature is bounded from below and scalar curvature is bounded from above. Then ricci flow with above as its initial data, on $M\times [0,\epsilon]$ for some $\epsilon>0$, has at most one solution in the class of complete riemannian metric with complex sectional curvature bounded from below.

Roman Shterenberg(UAB)

Recent progress in multidimensional periodic and almost-periodic spectral problems

Abstract: We present a review of the results in multidimensional periodic and almost-periodic spectral problems. We discuss some recent progress and old/new ideas used in the constructions. The talk is mostly based on the joint works with Yu. Karpeshina and L. Parnovski.

Antonio Ache(Princeton)

Ricci Curvature and the manifold learning problem

Abstract: In the first half of this talk we will review several notions of coarse or weak Ricci Curvature on metric measure spaces which include the works of Lott-Villani, Sturm and Ollivier. The discussion of the notion of coarse Ricci curvature will serve as motivation for developing a method to estimate the Ricci curvature of a an embedded submaifold of Euclidean space from a point cloud which has applications to the Manifold Learning Problem. Our method is based on combining the notion of ``Carre du Champ" introduced by Bakry-Emery with a result of Belkin and Niyogi which shows that it is possible to recover the rough laplacian of embedded submanifolds of the Euclidean space from point clouds. This is joint work with Micah Warren.

Jean-Michel Roquejoffre (Toulouse)

Front propagation in the presence of integral diffusion

Abstract: In many reaction-diffusion equations, where diffusion is given by a second order elliptic operator, the solutions will exhibit spatial transitions whose velocity is asymptotically linear in time. The situation can be different when the diffusion is of the integral type, the most basic example being the fractional Laplacian: the velocity can be time-exponential. We will explain why, and discuss several situations where this type of fast propagation occurs.

Myoungjean Bae (POSTECH)

Free Boundary Problem related to Euler-Poisson system

One dimensional analysis of Euler-Poisson system shows that when incoming supersonic flow is fixed, transonic shock can be represented as a monotone function of exit pressure. From this observation, we expect well-posedness of transonic shock problem for Euler-Poisson system when exit pressure is prescribed in a proper range. In this talk, I will present recent progress on transonic shock problem for Euler-Poisson system, which is formulated as a free boundary problem with mixed type PDE system. This talk is based on collaboration with Ben Duan(POSTECH), Chujing Xie(SJTU) and Jingjing Xiao(CUHK).

Changhui Tan (University of Maryland)

Global classical solution and long time behavior of macroscopic flocking models

Abstract: Self-organized behaviors are very common in nature and human societies. One widely discussed example is the flocking phenomenon which describes animal groups emerging towards the same direction. Several models such as Cucker-Smale and Motsch-Tadmor are very successful in characterizing flocking behaviors. In this talk, we will discuss macroscopic representation of flocking models. These systems can be interpreted as compressible Eulerian dynamics with nonlocal alignment forcing. We show global existence of classical solutions and long time flocking behavior of the system, when initial profile satisfies a threshold condition. On the other hand, another set of initial conditions will lead to a finite time break down of the system. This is a joint work with Eitan Tadmor.

Hongjie Dong (Brown University)

Parabolic equations in time-varying domains

Abstract: I will present a recent result on the Dirichlet boundary value problem for parabolic equations in time-varying domains. The equations are in either divergence or non-divergence form with boundary blowup low-order coefficients. The domains satisfy an exterior measure condition.