Finite density of anyonic excitons in bilayer Laughlin states at total filling 2/3 yields an exciton superfluid with specific bulk topological order, edge spectrum, and stiffness scaling as |δν|^{1/2} near Halperin (112) transitions.
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Weak localization to anti-localization transition in gate-defined BLG/WSe2 cavities provides spectroscopic evidence for proximity-induced spin-split valence bands.
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Anyon superfluidity of excitons in quantum Hall bilayers
Finite density of anyonic excitons in bilayer Laughlin states at total filling 2/3 yields an exciton superfluid with specific bulk topological order, edge spectrum, and stiffness scaling as |δν|^{1/2} near Halperin (112) transitions.
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Weak localization as probe of spin-orbit-induced spin-split bands in bilayer graphene proximity coupled to WSe$_2$
Weak localization to anti-localization transition in gate-defined BLG/WSe2 cavities provides spectroscopic evidence for proximity-induced spin-split valence bands.