Michael Anderson (Stony Brook)

Sergiu Klainerman (Princeton)

 Philippe G. LeFloch (Paris)

Jared Speck (Cambridge, USA)

Location: Simons Center for Geometry and Physics

Date: One-month concentration period in January 2015

Workshop from January 20 to 23, 2015

Einstein’s field equation of general relativity is one of the most important geometric partial differential equations. Over the past decade, the mathematical research on Einstein equation has made spectacular progress on many fronts, including the Cauchy problem, cosmic censorship, and asymptotic behavior. These developments have brought into focus the deep connections between the Einstein equation and other important geometric partial differential equations, including the wave map equation, Yang-Mills equation, Yamabe equation, as well as Hamilton’s Ricci flow. The field is of growing interest for mathematicians and of intense current activity, as is illustrated by major recent breakthroughs concerning the uniqueness and stability of black hole models, the formation of trapped surfaces, and the bounded L2 curvature problem. The themes of mathematical interest that will be particularly developed in the present Program include the formation of trapped surfaces and the nonlinear interaction of gravitational waves. The new results are based on a vast extension of the earlier technique by Christodoulou and Klainerman establishing the nonlinear stability of the Minkowski space. This Program will be an excellent place in order to present the recent breakthrough on the bounded L2 curvature problem for the Einstein equation, which currently provides the lower regularity theory for the initial value problem, as well as the recently developed theory of weakly regular Einstein spacetimes with distributional curvature.

Long-term participants

Michael Anderson (Stony Brook)

Piotr Chrusciel (Vienna)

Mihalis Dafermos (Princeton)

Cécile Huneau (Paris)

Alexandru D. Ionescu (Princeton)

James Isenberg (Eugene)

Sergiu Klainerman (Princeton)

Philippe G. LeFloch (Paris)

Jared Speck (Cambridge, USA)

Jinhua Wang (Hangzhou)

Mu-Tao Wang (New York)

Qian Wang (Oxford)

Willie Wong (Lausanne)

Speakers during the Workshop

  • Tuesday January 20
    • Sung-Ji Oh (Berkeley) Linear instability of the Cauchy horizon in subextremal Reissner-Nordström spacetime under scalar perturbations
    • Volker Schlue (Toronto) Stationarity of time-periodic vacuum spacetimes
    • Alexandru D. Ionescu (Princeton) The Euler–Maxwell system for electrons: global solutions in 2D
    • Joachim Krieger (Lausanne) Concentration-compactness for the critical Maxwell-Klein-Gordon equation
  • Wednesday January 21
    • Xianliang An (Piscataway) Two results on formation of trapped surfaces
    • Tahvildar-Zadeh (Piscataway) The Dirac electron and the Kerr-Newman spacetime
    • Mihalis Dafermos (Princeton)
    • Jim Isenberg (Eugene) Asymptotically hyperbolic shear-free solutions of the Einstein constraint equations
  • Thursday January 22
    • Cécile Huneau (Paris) Stability in exponential time of Minkowski
    • Jacques Smulevici (Orsay) Vector field methods for transport equations with applications to the Vlasov-Poisson system
    • Mu-Tao Wang (New York) Quasi-local angular momentum and the limit at infinity
    • Spyros Alexakis (Toronto) The Penrose inequality for perturbations of the Schwarzschild exterior
  • Friday January 23
    • Mihai Tohaneanu (Statesboro) Pointwise decay for the Maxwell system on black holes
    • Qian Wang (Oxford)
    • Peter Blue (Edinburgh) Revisiting decay of fields outside a Schwarzschild black hole
    • Philippe G. LeFloch (Paris) Weak solutions to the Einstein equations in spherical or T2 symmetry

Attendees List