Stochastic longevity of a dark soliton in a finite-temperature Bose-Einstein condensate

Abstract

We study the decay of a dark soliton in a homogeneous Bose-Einstein condensate. We give an analytical treatment of a decaying soliton, deriving an expression for the soliton velocity and decay time in the absence of thermal noise. We test the result against numerical simulations of a spatially confined system and find good agreement in the regime of low temperature (kBT μ). Thermal fluctuations are found to slow the escape of the soliton, extending its lifetime beyond the predictions of the noise-free theory; the effect becomes significant at a characteristic temperature kBT μ. This stabilization by noise allows us to infer an analytical lower bound for the dark soliton decay time.