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Rate of convergence in the Smoluchowski-Kramers approximation for mean-field stochastic differential equations (2209.11967v2)

Published 24 Sep 2022 in math.PR, math-ph, math.AP, and math.MP

Abstract: In this paper we study a second-order mean-field stochastic differential systems describing the movement of a particle under the influence of a time-dependent force, a friction, a mean-field interaction and a space and time-dependent stochastic noise. Using techniques from Malliavin calculus, we establish explicit rates of convergence in the zero-mass limit (Smoluchowski-Kramers approximation) in the $L^p$-distances and in the total variation distance for the position process, the velocity process and a re-scaled velocity process to their corresponding limiting processes.