Non-uniqueness of weak solutions to hydrodynamic equations
Presenter
January 9, 2017
Abstract
A Proof of Onsager's Conjecture for the Incompressible Euler Equations
Philip Isett
Massachusetts Institute of Technology
I will discuss a proof of Onsager’s conjecture that 1/3-Hölder is the threshold regularity for energy conservation for the 3D incompressible Euler equations. The construction is based on the method of convex integration, which was first developed for the incompressible Euler equations by De Lellis and Székelyhidi to build Hölder-continuous Euler flows that fail to conserve energy, and was later improved by Isett and by Buckmaster-De Lellis-Székelyhidi to obtain further partial results towards Onsager's conjecture. The proof to be discussed of the full conjecture combines the use of “Mikado flows” due to Daneri-Székelyhidi with a new "gluing approximation" technique. The latter technique exploits a s