Mathematical General Relativity
Aug 19, 2013
to Dec 20, 2013
Yvonne Choquet-Bruhat (University of Paris), Piotr T. ChruĊciel (University of Vienna), Greg Galloway (University of Miami), Gerhard Huisken (Albert Einstein Institute), James Isenberg* (University of Oregon), Sergiu Klainerman (Princeton University),Igor Rodniansky (Princeton University), Richard Schoen (Stanford University)
Tags:
Scientific
The study of Einstein's general relativistic gravitational field equation, which has for many years played a crucial role in the modeling of physical cosmology and astrophysical phenomena, is increasingly a source for interesting and challenging problems in geometric analysis and PDE. In nonlinear hyperbolic PDE theory, the problem of determining if the Kerr black hole is stable has sparked a flurry of activity, leading to outstanding progress in the study of scattering and asymptotic behavior of solutions of wave equations on black hole backgrounds. The spectacular recent results of Christodoulou on trapped surface formation have likewise stimulated important advances in hyperbolic PDE. At the same time, the study of initial data for Einstein's equation has generated a wide variety of challenging problems in Riemannian geometry and elliptic PDE theory. These include issues, such as the Penrose inequality, related to the asymptotically defined mass of an astrophysical systems, as well as questions concerning the construction of non constant mean curvature solutions of the Einstein constraint equations. This semester-long program aims to bring together researchers working in mathematical relativity, differential geometry, and PDE who wish to explore this rapidly growing area of mathematics. Workshop(s):
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