Journal
PHYSICAL REVIEW A
Volume 105, Issue 1, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevA.105.023303
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Funding
- Science and Engineering Research Board, Department of Science and Technology, Government of India [ECR/2017/001436]
- CNPq (Brazil) [301324/2019-0]
- ICTPSAIFR-FAPESP (Brazil) [2016/01343-7]
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We studied the emergence of supersolid-like crystalline structures in a quasi-two-dimensional spin-orbit coupled spin-2 condensate. Different strengths of spin-orbit coupling and interatomic interactions led to a variety of nontrivial density patterns in the solutions.
We study supersolid-like crystalline structures emerging in the stationary states of a quasi-two-dimensional spin-orbit (SO)-coupled spin-2 condensate in the ferromagnetic, cyclic, and antiferromagnetic phases by solving a mean-field model. Interplay of different strengths of SO coupling and interatomic interactions gives rise to a variety of nontrivial density patterns in the emergent solutions. For small SO-coupling strengths gamma (gamma approximate to 0.5), the ground state is an axisymmetric multiring soliton for polar, cyclic, and weakly ferromagnetic interactions, whereas for stronger ferromagnetic interactions a circularly asymmetric soliton emerges as the ground state. Depending on the values of interaction parameters, with an increase in SO-coupling strength, a stripe phase may also emerge as the ground state for polar and cyclic interactions. For intermediate values of SO-coupling strength (gamma approximate to 1), in addition to these solitons, one could have a quasidegenerate triangular-lattice soliton in all magnetic phases. On further increasing the SO-coupling strength (gamma (sic) 4), a square-lattice and a superstripe soliton emerge as quasidegenerate states. The emergence of all these solitons can be inferred from a study of solutions of the single-particle Hamiltonian.
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