Tunneling, dissipation, and superfluid transition in quantum Hall bilayers

Abstract

We study bilayer quantum Hall systems at total Landau level filling factor =1 in the presence of interlayer tunneling and coupling to a dissipative normal fluid. Describing the dynamics of the interlayer phase by an effective quantum dissipative XY model, we show that there exists a critical dissipation σc set by the conductance of the normal fluid. For σ > σc, interlayer tunnel splitting drives the system to a =1 quantum Hall state. For σ <σc, interlayer tunneling is irrelevant at low temperatures, the system exhibits a superfluid transition to a collective quantum Hall state supported by spontaneous interlayer phase coherence. The resulting phase structure and the behavior of the in-plane and tunneling currents are studied in connection to experiments.

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