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W2797354695 abstract "Quantum droplets have intrigued much attention recently in view of their successful observations in the ultracold homonuclear atoms. In this work, we demonstrate a new mechanism for the formation of quantum droplet in heteronuclear atomic systems, i.e., by applying the synthetic spin-orbit coupling(SOC). Take the Bose-Fermi mixture for example, we show that by imposing a Rashba SOC between the spin states of fermions, the greatly suppressed Fermi pressure can enable the formation of Bose-Fermi droplets even for very weak boson-fermion attractions, which are insufficient to bound a droplet if without SOC. In such SOC-induced quantum droplets, the boson/fermion density ratio universally depends on the SOC strength, and they occur in the mean-field collapsing regime but with a negative fluctuation energy, distinct from the interaction-induced droplets found in literature. The accessibility of these Bose-Fermi droplets in ultracold Cs-Li and Rb-K mixtures is also discussed. Our results shed light on the droplet formation in a vast class of heteronuclear atomic systems through the manipulation of single-particle physics." @default.
W2797354695 created "2018-04-24" @default.
W2797354695 creator A5077995699 @default.
W2797354695 date "2018-08-27" @default.
W2797354695 modified "2023-10-16" @default.
W2797354695 title "Spin-orbit-coupling-induced quantum droplet in ultracold Bose-Fermi mixtures" @default.
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W2797354695 doi "https://doi.org/10.1103/physreva.98.023630" @default.
W2797354695 hasPublicationYear "2018" @default.
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