PDE Geometric Analysis seminar
The seminar will be held in room 901 of Van Vleck Hall on Mondays from 3:30pm - 4:30pm, unless indicated otherwise.
PDE GA Seminar Schedule Spring 2017
Special time and location:
3-3:50pm, B325 Van Vleck
|Sigurd Angenent (UW)||Ancient convex solutions to Mean Curvature Flow||Kim & Tran|
|January 30||Serguei Denissov (UW)||Instability in 2D Euler equation of incompressible inviscid fluid||Kim & Tran|
|February 6 - Wasow lecture||Benoit Perthame (University of Paris VI)||Jin|
|February 13||Bing Wang (UW)||The extension problem of the mean curvature flow||Kim & Tran|
|February 20||Eric Baer (UW)||Isoperimetric sets inside almost-convex cones||Kim & Tran|
|February 27||Ben Seeger (University of Chicago)||Homogenization of pathwise Hamilton-Jacobi equations||Tran|
|March 7 - Mathematics Department Distinguished Lecture||Roger Temam (Indiana University)||On the mathematical modeling of the humid atmosphere||Smith|
|March 8 - Analysis/Applied math/PDE seminar||Roger Temam (Indiana University)||Weak solutions of the Shigesada-Kawasaki-Teramoto system||Smith|
|March 13||Sona Akopian (UT-Austin)||Kim|
|March 27 - Analysis/PDE seminar||Sylvia Serfaty (Courant)||Tran|
|March 29 - Wasow lecture||Sylvia Serfaty (Courant)|
|April 3||Zhenfu Wang (Maryland)||Kim|
|April 10||Andrei Tarfulea (Chicago)||Improved estimates for thermal fluid equations||Baer|
|April 17||Siao-Hao Guo (Rutgers)|| Lu Wang
|April 24||Jianfeng Lu||TBA||Li|
|April 25- joint Analysis/PDE seminar||Chris Henderson (Chicago)||TBA||Lin|
|May 1st||Jeffrey Streets (UC-Irvine)||Bing Wang|
The Huisken-Hamilton-Gage theorem on compact convex solutions to MCF shows that in forward time all solutions do the same thing, namely, they shrink to a point and become round as they do so. Even though MCF is ill-posed in backward time there do exist solutions that are defined for all t<0 , and one can try to classify all such “Ancient Solutions.” In doing so one finds that there is interesting dynamics associated to ancient solutions. I will discuss what is currently known about these solutions. Some of the talk is based on joint work with Sesum and Daskalopoulos.
We consider the patch evolution under the 2D Euler dynamics and study how the geometry of the boundary can deteriorate in time.
We show that the mean curvature blows up at the first finite singular time for a closed smooth embedded mean curvature flow in R3. This is a joint work with H.Z. Li.
We discuss a recent result showing that a characterization of isoperimetric sets (that is, sets minimizing a relative perimeter functional with respect to a fixed volume constraint) inside convex cones as sections of balls centered at the origin (originally due to P.L. Lions and F. Pacella) remains valid for a class of "almost-convex" cones. Key tools include compactness arguments and the use of classically known sharp characterizations of lower bounds for the first nonzero Neumann eigenvalue associated to (geodesically) convex domains in the hemisphere. The work we describe is joint with A. Figalli.
I present a homogenization result for pathwise Hamilton-Jacobi equations with "rough" multiplicative driving signals. In doing so, I derive a new well-posedness result when the Hamiltonian is smooth, convex, and positively homogenous. I also demonstrate that equations involving multiple driving signals may homogenize or exhibit blow-up.
We consider a model for three-dimensional fluid flow on the torus that also keeps track of the local temperature. The momentum equation is the same as for Navier-Stokes, however the kinematic viscosity grows as a function of the local temperature. The temperature is, in turn, fed by the local dissipation of kinetic energy. Intuitively, this leads to a mechanism whereby turbulent regions increase their local viscosity and dissipate faster. We prove a strong a priori bound (that would fall within the Ladyzhenskaya-Prodi-Serrin criterion for ordinary Navier-Stokes) on the thermally weighted enstrophy for classical solutions to the coupled system.