A Proof of Onsager's Conjecture

Abstract

For any α < 1/3, we construct weak solutions to the 3D incompressible Euler equations in the class CtCxα that have nonempty, compact support in time on R × T3 and therefore fail to conserve the total kinetic energy. This result, together with the proof of energy conservation for α > 1/3 due to [Eyink] and [Constantin, E, Titi], solves Onsager's conjecture that the exponent α = 1/3 marks the threshold for conservation of energy for weak solutions in the class Lt∞ Cxα. The previous best results were solutions in the class CtCxα for α < 1/5, due to the author, and in the class Lt1 Cxα for α < 1/3 due to Buckmaster, De Lellis and Sz\'ekelyhidi, both based on the method of convex integration developed for the incompressible Euler equations by De Lellis and Sz\'ekelyhidi. The present proof combines the method of convex integration and a new "gluing approximation" technique. The convex integration part of the proof relies on the "Mikado flows" introduced by [Daneri, Sz\'ekelyhidi] and the framework of estimates developed in the author's previous work.