4.6 Article

High-temperature superfluidity of the two-component Bose gas in a transition metal dichalcogenide bilayer

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PHYSICAL REVIEW B
卷 93, 期 24, 页码 -

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AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.93.245410

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  1. NSF Grant [HRD-1345219]

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The high-temperature superfluidity of two-dimensional dipolar excitons in two parallel transition metal dichalcogenide (TMDC) layers is predicted. We study Bose-Einstein condensation in the two-component system of dipolar A and B excitons. The effective mass, energy spectrum of the collective excitations, the sound velocity, and critical temperature are obtained for different TMDC materials. It is shown that in the Bogoliubov approximation, the sound velocity in the two-component dilute exciton Bose gas is always larger than in any one-component exciton system. The difference between the sound velocities for two-component and one-component dilute gases is caused by the fact that the sound velocity for a two-component system depends on the reduced mass of A and B excitons, which is always smaller than the individual mass of A or B exciton. Due to this fact, the critical temperature T-c for superfluidity for the two-component exciton system in a TMDC bilayer is about one order of magnitude higher than T-c in any one-component exciton system. We propose to observe the superfluidity of two-dimensional dipolar excitons in two parallel TMDC layers, which causes two opposite superconducting currents in each TMDC layer.

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