Fundamental, Multipole, and Half-Vortex Gap Solitons in Spin-Orbit Coupled Bose-Einstein Condensates

Valery E. Lobanov; Yaroslav V. Kartashov; Vladimir V. Konotop

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Fundamental, Multipole, and Half-Vortex Gap Solitons in Spin-Orbit Coupled Bose-Einstein Condensates

机译：自旋轨道耦合玻色-爱因斯坦凝聚物中的基本，多极和半涡隙孤子

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Using the parity and time reversal symmetries of a two-dimensional spin-orbit coupled Bose-Einstein condensate in a lattice created by the Zeeman field, we identify and find numerically various families of localized solutions, including multipole and half-vortex solitons. The obtained solutions may exist at any direction of the gauge field with respect to the lattice and can be found either in finite gaps (for repulsive interatomic interactions) or in a semi-infinite gap (for attractive interactions). The existence of half-vortices requires higher symmetry (the reflection with respect to the field direction). Stability of these modes makes them feasible for experimental observation.

机译：使用由Zeeman场创建的晶格中二维自旋轨道耦合的Bose-Einstein凝聚物的奇偶校验和时间反转对称性，我们可以识别和找到各种数值的局部解族，包括多极子和半涡旋孤子。所获得的解可以存在于相对于晶格的规范场的任何方向上，并且可以在有限的间隙（对于排斥性原子间相互作用）或在半无限的间隙（对于吸引相互作用）中找到。半漩涡的存在需要更高的对称性（相对于场方向的反射）。这些模式的稳定性使其可用于实验观察。

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来源
《Physical review letters》 |2014年第18期|180403.1-180403.5|共5页
作者
Valery E. Lobanov; Yaroslav V. Kartashov; Vladimir V. Konotop;
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作者单位

ICFO-Institut de Ciencies Fotoniques and Universitat Politecnica de Catalunya, 08860 Castelldefels (Barcelona), Spain;

ICFO-Institut de Ciencies Fotoniques and Universitat Politecnica de Catalunya, 08860 Castelldefels (Barcelona), Spain,Institute of Spectroscopy, Russian Academy of Sciences, Troitsk, Moscow Region 142190, Russia;

Centro de Fisica Teorica e Computacional, Faculdade de Ciencias, Universidade de Lisboa, Avenida Professor Gama Pinto 2, Lisboa 1649-003, Portugal,Departamento de Fisica, Faculdade de Ciencias, Universidade de Lisboa, Campo Grande, Edificio C8, Lisboa 1749-016, Portugal;

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tunneling, josephson effect, bose-einstein condensates in periodic potentials, solitons, vortices and topological excitations; multicomponent condensates; spinor condensates; spin-orbit coupling, zeeman and stark splitting, jahn-teller effect;

机译：隧道效应;约瑟夫森效应;周期性势;孤子;涡旋和拓扑激发中的玻色-爱因斯坦凝聚;多组分冷凝物;纺丝冷凝物;自旋轨道耦合;塞曼和斯塔克分裂;詹-泰勒效应;

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1. Stability of the half-vortex in spin-orbit coupled Bose-Einstein condensate [J] . Wu Rukuan Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2016,第36期

机译：自旋轨道耦合玻色-爱因斯坦凝聚物中半旋涡的稳定性
2. Quenching dynamics of the bright solitons and other localized states in spin-orbit coupled Bose-Einstein condensates [J] . Ravisankar Rajamanickam, Sriraman Thangarasu, Salasnich Luca, Journal of Physics, B. Atomic, Molecular and Optical Physics: An Institute of Physics Journal . 2020,第19期

机译：旋转轨道耦合Bose-Einstein冷凝物中明亮孤子和其他局部状态的淬火动态
3. Magnetized vector solitons in a spin-orbit coupled spin-1 Bose-Einstein condensate with Zeeman coupling [J] . Peng Ping, Li Guan-Qiang, Zhao Li-Chen, Physics Letters, A . 2019,第24期

机译：旋转轨道耦合的磁化矢量孤子在旋转轨道上旋转-1升 - 爱因斯坦冷凝物与塞曼联轴器
4. Mechanisms of formation of gap solitons of Bose-Einstein condensates in optical lattices [C] . Luis Plaja, J. San Rom Conference on Ultrafast Phenomena and Physics of Superintense Laser Fields; Quantum and Atom Optics; Engineering of Quantum Information . 2006

机译：光学晶格中Bose-Einstein凝聚物的间隙孤子形成机制
5. Solitons and Breathers in Bose-Einstein Condensates [D] . Luo, Henry. 2021

机译：Bose-Einstein凝聚液中的孤子和呼吸
6. Orbit-induced spin squeezing in a spin-orbit coupled Bose-Einstein condensate [O] . Jinling Lian, Lixian Yu, J.-Q. Liang, -1

机译：自旋轨道耦合的玻色-爱因斯坦凝聚物中的轨道诱导自旋压缩
7. Gap solitons in the spin-orbit coupled Bose-Einstein condensates [O] . Kartashov, Yaroslav V., Konotop, Vladimir V., Abdullaev, Fatkhulla Kh. 2013

机译：自旋轨道中的间隙孤子耦合了玻色 - 爱因斯坦凝聚体

Fundamental, Multipole, and Half-Vortex Gap Solitons in Spin-Orbit Coupled Bose-Einstein Condensates

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