Spin current generation and relaxation in a quenched spin-orbit-coupled Bose-Einstein condensate

Li, Chuan-Hsun; Qu, Chunlei; Niffenegger, Robert; Wang, Su-Ju; He, Mingyuan; Blasing, David; Olson, Abraham; Greene, Chris H.; Lyanda-Geller, Yuli; Zhou, Qi; Zhang, Chuanwei; Chen, Yong P.

doi:10.1038/s41467-018-08119-4

Cited by 31 publications

(18 citation statements)

References 72 publications

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“…When the discussion is specific to one of the scenarios, we use, respectively, Ω R (t) and Ω L (t) for the Raman and lattice coupling cases [correspondingly, Ω 0 in Eqs. ( 5) and (6) below are replaced by Ω 0,R and Ω 0,L , respectively]. The coupling, which is assumed to be real, is turned on at time t start , where t = 0 is the time at which the trapping potential is removed.…”

Section: Methodsmentioning

confidence: 99%

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Rabi oscillations and Ramsey-type pulses in ultracold bosons: Role of interactions

et al. 2020

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Double-well systems loaded with one, two, or many quantum particles give rise to intriguing dynamics, ranging from Josephson oscillation to self-trapping. This work presents theoretical and experimental results for two distinct double-well systems, both created using dilute rubidium Bose-Einstein condensates with particular emphasis placed on the role of interaction in the systems. The first is realized by creating an effective two-level system through Raman coupling of hyperfine states. The second is an effective two-level system in momentum space generated through the coupling by an optical lattice. Even though the non-interacting systems can, for a wide parameter range, be described by the same model Hamiltonian, the dynamics for these two realizations differ in the presence of interactions. The difference is attributed to scattering diagrams that contribute in the lattice coupled system but vanish in the Raman coupled system. The internal dynamics of the Bose-Einstein condensates for both coupling scenarios is probed through a Ramsey-type interference pulse sequence, which constitutes a key building block of atom interferometers. These results have important implications in a variety of contexts including lattice calibration experiments and momentum space lattices used for quantum analog simulations.

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Section: Methodsmentioning

confidence: 99%

“…For an interacting ensemble of particles, the Rabi oscillations are, in general, further modified. In particular, the population oscillations may not be fully periodic and the amplitude of the oscillations may decrease or drift (dephase) due to many-body effects [4][5][6].…”

Section: Introductionmentioning

confidence: 99%

Rabi oscillations and Ramsey-type pulses in ultracold bosons: Role of interactions

et al. 2020

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“…The same was realized in experiments by creating non-abelian gauge potentials through Raman lasers which coherently couple the spin-component states of a spinor Bose-Einstein condensate (BEC) [2][3][4][5]. An SOcoupled BEC has been used as a quantum simulator to study spin-Hall effect [6], fractional topological insulators [7], and spin-current generation [8], etc. [9].…”

Section: Introductionmentioning

confidence: 99%

Supersolid-like solitons in spin-orbit coupled spin-2 condensate

Kaur,

Gautam,

Adhikari

2022

Preprint

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We study supersolid-like crystalline structures emerging in the stationary states of a quasi-twodimensional 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 non-trivial density patterns in the emergent solutions. For small SO-coupling strengths γ (γ ≈ 0.5), the ground state is an axisymmetric multi-ring 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 (γ ≈ 1), in addition to these solitons, one could have a quasi-degenerate triangular-lattice soliton in all magnetic phases. On further increasing the SO-coupling strength (γ 4), a square-lattice and a superstripe soliton emerge as quasi-degenerate states. The emergence of all these solitons can be inferred from a study of solutions of the single-particle Hamiltonian.

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“…Recently, Han and his co-authors have considered a homogenous SU(3) SO-coupled Bose gas and obtained the double-quantum spin vortices [27]. On the base of their pioneering research work, Li and Chen have studied the SU(3) SO-coupled BEC confined in a harmonic plus quartic trap [28]. Very recently, the ground states of a harmonically trapped spin-1 BEC with SU(3) BEC affected by the external rotation are investigated in [29], where a clover-type ground-state structure is discovered.…”

Section: Introductionmentioning

confidence: 99%

SU(3) Spin–Orbit Coupled Rotating Bose–Einstein Condensate Subject to a Gradient Magnetic Field

Chen

Qiao

et al. 2021

Front. Phys.

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We consider a harmonically trapped rotating spin-1 Bose–Einstein condensate with SU(3) spin–orbit coupling subject to a gradient magnetic field. The effects of SU(3) spin–orbit coupling, rotation, and gradient magnetic field on the ground-state structure of the system are investigated in detail. Our results show that the interplay among SU(3) spin–orbit coupling, rotation, and gradient magnetic field can result in a variety of ground states, such as a vortex ring and clover-type structure. The numerical results agree well with our variational analysis results.

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Spin current generation and relaxation in a quenched spin-orbit-coupled Bose-Einstein condensate

Cited by 31 publications

References 72 publications

Rabi oscillations and Ramsey-type pulses in ultracold bosons: Role of interactions

Rabi oscillations and Ramsey-type pulses in ultracold bosons: Role of interactions

Supersolid-like solitons in spin-orbit coupled spin-2 condensate

SU(3) Spin–Orbit Coupled Rotating Bose–Einstein Condensate Subject to a Gradient Magnetic Field

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