Weak pullback attractors for damped stochastic fractional Schr\"odinger equation on $Rn

Abstract

This article discusses the weak pullback attractors for a damped stochastic fractional Schr\"odinger equation on Rn with n≥ 2. By utilizing the stochastic Strichartz estimates and a stopping time technique argument, the existence and uniqueness of a global solution for the systems with the nonlinear term |u|2σu are proven. Furthermore, we define a mean random dynamical system due to the uniqueness of the solution, which has a unique weak pullback mean random attractor in L(; L2(Rn)). This result highlights the long-term dynamics of a broad class of stochastic fractional dispersion equations.

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