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Ground-state phase diagram and excitation spectrum of a Bose-Einstein condensate with spin-orbital-angular-momentum coupling

Ke-Ji Chen, Fan Wu, Jianshen Hu, Lianyi He

2020Physical review. A/Physical review, A21 citationsDOIOpen Access PDF

Abstract

We investigate the ground-state phase diagram and excitation spectrum of an interacting spinor Bose-Einstein condensate with spin-orbital-angular-momentum (SOAM) coupling realized in recent experiments by introducing atomic Raman transition with a pair of copropagating Laguerre-Gaussian laser beams that carry different orbital angular momenta (OAM) [Chen et al., Phys. Rev. Lett. 121, 113204 (2018) and Zhang et al., Phys. Rev. Lett. 122, 110402 (2019)]. Because of the ground-state degeneracy of the single-particle Hamiltonian at vanishing detuning, several angular-stripe phases, which are the superposition of states with different angular quantum numbers, appear in the phase diagram. However, these phases normally exist at small detuning, which makes them hard to be probed in experiments. We show that for a large OAM difference of the laser beams, an asymmetric kind of angular-stripe phase can exist even at large detuning. The excitation spectra in different phases exhibit distinct features: In the angular-stripe phase there exist two gapless bands corresponding to the broken $\mathrm{U}(1)$ and rotational symmetries, while in the half-skyrmion phase the gapless band exhibits a rotonlike structure. Our predictions of the angular-stripe phases and the low-energy excitations can be examined in recently realized Bose-Einstein condensates with SOAM coupling.

Topics & Concepts

PhysicsAngular momentumAngular momentum couplingBose–Einstein condensateTotal angular momentum quantum numberGround stateAzimuthal quantum numberAngular momentum of lightQuantum mechanicsAtomic physicsCold Atom Physics and Bose-Einstein CondensatesStrong Light-Matter InteractionsOrbital Angular Momentum in Optics
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