Spin-Orbit-Driven Transitions between Mott Insulators and Finite-Momentum Superfluids of Bosons in Optical Lattices

Date

2018-11-05

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Amer Physical Soc

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Abstract

Synthetic spin-orbit coupling in ultracold atomic gases can be taken to extremes rarely found in solids. We study a two-dimensional Hubbard model of bosons in an optical lattice in the presence of spin-orbit coupling strong enough to drive direct transitions from Mott insulators to superfluids. Here we find phase-modulated superfluids with finite momentum that are generated entirely by spin-orbit coupling. We investigate the rich phase patterns of the superfluids, which may be directly probed using time-of-flight imaging of the spin-dependent momentum distribution.

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Keywords

Semiconductors, Superconductivity, Gases, Optics, Superfluidity, Bosons, Optical lattices, Bose-Einstein condensation, Spinor analysis

item.page.sponsorship

ARO (W911NF-12-1-0335, W911NF-16-1-0182, W911NF-17-1-0128), AFOSR (FA9550-11-1-0313, FA9550-15-1-0445, FA9550-16-1-0387), NSF-PHY (1505496), Hong Kong RGC/GRF Project 401512, the Hong Kong Scholars Program (Grant No. XJ2011027), and the Hong Kong GRF Project 2130352.

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©2017 American Physical Society. All Rights Reserved.

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