4.5 Article

Ground-state phases and spin textures of spin-orbit-coupled dipolar Bose-Einstein condensates in a rotating toroidal trap*

期刊

CHINESE PHYSICS B
卷 29, 期 11, 页码 -

出版社

IOP PUBLISHING LTD
DOI: 10.1088/1674-1056/abbbe8

关键词

Bose-Einstein condensate; dipole-dipole interaction; spin-orbit coupling; topological defects

资金

  1. National Natural Science Foundation of China [11475144, 11047033]
  2. Natural Science Foundation of Hebei Province, China [A2019203049, A2015203037]
  3. University Science and Technology Foundation of Hebei Provincial Department of Education, China [Z2017056]
  4. Science and Technology Plan Projects of Tangshan City, China [19130220g]
  5. Research Foundation of Yanshan University, China [B846]

向作者/读者索取更多资源

We investigate the ground-state phases and spin textures of spin-orbit-coupled dipolar pseudo-spin-1/2 Bose-Einstein condensates in a rotating two-dimensional toroidal potential. The combined effects of dipole-dipole interaction (DDI), spin-orbit coupling (SOC), rotation, and interatomic interactions on the ground-state structures and topological defects of the system are analyzed systematically. For fixed SOC strength and rotation frequency, we provide a set of phase diagrams as a function of the DDI strength and the ratio between inter- and intra-species interactions. The system can show rich quantum phases including a half-quantum vortex, symmetrical (asymmetrical) phase with quantum droplets (QDs), asymmetrical segregated phase with hidden vortices (ASH phase), annular condensates with giant vortices, triangular (square) vortex lattice with QDs, and criss-cross vortex string lattice, depending on the competition between DDI and contact interaction. For given DDI strength and rotation frequency, the increase of the SOC strength leads to a structural phase transition from an ASH phase to a tetragonal vortex lattice then to a pentagonal vortex lattice and finally to a vortex necklace, which is also demonstrated by the momentum distributions. Without rotation, the interplay of DDI and SOC may result in the formation of a unique trumpet-shaped Bloch domain wall. In addition, the rotation effect is discussed. Furthermore, the system supports exotic topological excitations, such as a half-skyrmion (meron) string, triangular skyrmion lattice, skyrmion-half-skyrmion lattice, skyrmion-meron cluster, skyrmion-meron layered necklace, skyrmion-giant-skyrmion necklace lattice, and half-skyrmion-half-antiskyrmion necklace.

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