Solitary waves in a stochastic parametrically forced nonlinear Schr\"odinger equation

Abstract

We study a parametrically forced nonlinear Schr\"odinger (PFNLS) equation, driven by multiplicative translation-invariant noise. We show that a solitary wave in the stochastic equation is orbitally stable on a timescale which is exponential in the inverse square of the noise strength. We give explicit expressions for the phase shift and fluctuations around the shifted wave which are accurate to second order in the noise strength. This is done by developing a new perspective on the phase-lag method introduced by Kr\"uger and Stannat. Additionally, we show well-posedness of the equation in the fractional Bessel space Hs for any s ∈ [0,∞), demonstrating persistence of regularity.