Space-time vortex driven crossover and vortex turbulence phase transition in one-dimensional driven open condensates
Statistical Mechanics
2017-03-01 v3 Quantum Gases
Abstract
We find a first order transition driven by the strength of non-equilibrium conditions of one-dimensional driven open condensates. Associated with this transition is a new stable non-equilibrium phase, space-time vortex turbulence, whose vortex density and quasiparticle distribution show strongly non-thermal behavior. Below the transition, we identify a new time scale associated with noise activated unbound space-time vortices, beyond which the temporal coherence function changes from a Kardar-Parisi-Zhang type subexponential to a disordered exponential decay. Experimental realization of the non-equilibrium vortex turbulent phase is facilitated in driven open condensates with a large diffusion rate.
Cite
@article{arxiv.1607.06451,
title = {Space-time vortex driven crossover and vortex turbulence phase transition in one-dimensional driven open condensates},
author = {Liang He and Lukas M. Sieberer and Sebastian Diehl},
journal= {arXiv preprint arXiv:1607.06451},
year = {2017}
}
Comments
5+5 pages, 3+3 figures