Dark dipolar excitons in coupled quantum wells form a driven-dissipative condensate with macroscopic coherence, millimeter-scale hydrodynamic transport, and nuclear spin polarization that locks the dark-bright gap.
S6: The normalized trion intensity as a function of laser power for different gate voltages at ๐ = 1.7 K
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Coherence, long-range transport and nuclear polarization in a driven-dissipative dark exciton condensate
Dark dipolar excitons in coupled quantum wells form a driven-dissipative condensate with macroscopic coherence, millimeter-scale hydrodynamic transport, and nuclear spin polarization that locks the dark-bright gap.