Nonlinear excitations, stability inversions, and dissipative dynamics in quasi-one-dimensional polariton condensates

Description

We study the existence, stability, and dynamics of the ground state and nonlinear excitations, in the form of dark solitons, for a quasi-one-dimensional polariton condensate in the presence of nonresonant pumping and nonlinear damping. We find a series of remarkable features that can be directly contrasted to the case of the typically energy-conserving ultracold alkali-atom Bose-Einstein condensates. For some sizable parameter ranges, the nodeless ("ground") state becomes unstable toward the formation of stable nonlinear single- or multi-dark-soliton excitations. It is also observed that for suitable parametric choices, the instability of single dark solitons can nucleate multi-dark-soliton states. Also, for other parametric regions, stable asymmetric sawtooth-like solutions exist. These are shown to emerge through a symmetry-breaking bifurcation from bubble-like solutions that we also explore. We also consider the dragging of a defect through the condensate and the interference of two initially separated condensates, both of which are capable of nucleating dark multisoliton dynamical states.

Abstract

MICINN project FIS2008-04848

Abstract

NSF-DMS-0806762, Plan Propio de la Universidad de Sevilla

Abstract

NSF-DMS-0806762, Grant No. IAC09-I-4669, Junta de Andalucia; Ministerio de Ciencia e Innovación

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