Lihai Ji, Zhihui Liu
Published 2024-08-17Version 1
We consider the stochastic nonlinear Schroedinger equation driven by a multiplicative noise in a semiclassical regime, where the Plank constant is small. In this regime, the solution of the equation exhibits high-frequency oscillations. We design an efficient numerical method combining the spectral Galerkin approximation and the midpoint scheme. This accurately approximates the solution, or at least of the associated physical observables. Furthermore, the strong convergence rate for the proposed scheme is derived, which explicitly depends on the Planck constant. This conclusion implies the semiclassical regime's admissible meshing strategies for obtaining "correct" physical observables.
Discontinuous Galerkin methods for stochastic Maxwell equations with multiplicative noise
Higher order time discretization for the stochastic semilinear wave equation with multiplicative noise
Strong Approximation of Monotone SPDEs Driven by Multiplicative Noise: Exponential Ergodicity and Uniform Estimates
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