Spacetime bounds for the energy-critical nonlinear wave equation in three spatial dimensions

Abstract

Results of Struwe, Grillakis, Struwe-Shatah, Kapitanski, Bahouri-Shatah, Bahouri-G\'erard and Nakanishi have established global wellposedness, regularity, and scattering in the energy class for the energy-critical nonlinear wave equation u = u5 in 1+3, together with a spacetime bound \| u \|L4t L12x(1+3) ≤ M(E(u)) for some finite quantity M(E(u)) depending only on the energy E(u) of u. We reprove this result, and show that this quantity obeys a bound of at most exponential type in the energy, and specifically M(E) ≤ C (1+E)C E105/2 for some absolute constant C > 0. The argument combines the quantitative local potential energy decay estimates of these previous papers with arguments used by Bourgain and the author for the analogous nonlinear Schr\"odinger equation.

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