Journal
PHYSICS LETTERS A
Volume 442, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.physleta.2022.128192
Keywords
Bose-Bose mixture; Spin-orbit coupling; Soliton-molecule; Modulational instability
Categories
Funding
- National Science Foundation [NSF PHY-1748958]
- NIH [R25GM067110]
- Gordon and Betty Moore Foundation [2919.01]
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The modulational instability of continuous waves in a two-component Bose-Einstein condensate with a mixture of Rashba and Dresselhaus spin-orbit couplings and the Lee-Huang-Yang term is investigated theoretically and numerically. It is found that instability can be induced in the presence of the RD spin-orbit coupling under suitable balance between nonlinear and dispersive effects. The emergence of multi-peaked solitons and exotic vortex structures in direct numerical simulations confirms the analytical predictions and suggests that modulational instability is a suitable mechanism for generating matter waves.
The modulational instability (MI) of continuous waves is exclusively addressed theoretically and numerically in a two-component Bose-Einstein condensate in the presence of a mixture of Rashba and Dresselhaus (RD) spin-orbit couplings and the Lee-Huang-Yang (LHY) term. The linear stability analysis is utilized to derive an expression for the MI growth rate. It is revealed that instability can be excited in the presence of the RD spin-orbit coupling under conditions where nonlinear and dispersive effects are suitably balanced. Analytical predictions are confirmed via direct numerical simulations, where MI is manifested by the emergence of soliton-molecules that include four-peaked solitons and more exotic vortex structures that are very sensitive to variations in spin-orbit coupling strengths. Our study suggests that MI is a suitable mechanism for generating matter waves through multi-peaked solitons of various geometries. (C) 2022 Elsevier B.V. All rights reserved.
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