Viscosity solutions of Hamilton-Jacobi equation in $RCD(K,\infty)$ spaces and applications to large deviations

Nicola Gigli, Luca Tamanini, Dario Trevisan

Published 2022-03-22Version 1

The aim of this paper is twofold. - In the setting of $RCD(K,\infty)$ metric measure spaces, we derive uniform gradient and Laplacian contraction estimates along solutions of the viscous approximation of the Hamilton-Jacobi equation. We use these estimates to prove that, as the viscosity tends to zero, solutions of this equation converge to the evolution driven by the Hopf-Lax formula, in accordance with the smooth case. - We then use such convergence to study the small-time Large Deviation Principle for both the heat kernel and the Brownian motion: we obtain the expected behaviour under the additional assumption that the space is proper.