Nonlinear modes in binary bosonic condensates with pseudo-spin-orbital coupling
Abstract
We consider an effectively one-dimensional binary Bose-Einstein condensate (BEC) with nonlinear repulsive interactions and linear spin-orbit (SO) and Zeeman-splitting couplings. In the presence of the trapping harmonic-oscillator (HO) potential, we report the existence of even, odd, and asymmetric spatial modes. They feature alternating domains with opposite directions of the pseudospin, i.e., antiferromagnetic structures, which is explained by the interplay of the linear couplings, HO confinement, and repulsive self-interaction. The number of the domains is determined by the strength of the SO coupling. The modes are constructed analytically in the weakly nonlinear system. The dynamical stability of the modes is investigated by means of the Bogoliubov-de Gennes equations and direct simulations. A notable result is that the multi-domain-wall (DW) structures are stable, alternating between odd and even shapes, while the simplest single-DW structure is unstable. Thus, the system features a transition to the complex ground states under the action of the SO coupling. The addition of the Zeeman splitting transforms the odd modes into asymmetric ones via spontaneous symmetry breaking. The results suggest possibilities for switching the binary system between states with opposite (pseudo)magnetization by external fields, and realization of similar stable states and dynamical effects in solid-state and nonlinear-optical settings emulated by the SO-coupled BECs.
- Publication:
-
Physical Review A
- Pub Date:
- July 2013
- DOI:
- arXiv:
- arXiv:1305.1147
- Bibcode:
- 2013PhRvA..88a3607Z
- Keywords:
-
- 67.85.-d;
- 03.75.Kk;
- 03.75.Mn;
- 05.30.Jp;
- Ultracold gases trapped gases;
- Dynamic properties of condensates;
- collective and hydrodynamic excitations superfluid flow;
- Multicomponent condensates;
- spinor condensates;
- Boson systems;
- Condensed Matter - Quantum Gases;
- Nonlinear Sciences - Pattern Formation and Solitons
- E-Print:
- 6 pages, 6 figures