Vortex states of a disordered quantum Hall bilayer
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Eastham, PR, Cooper, NR, Lee, DKK, Vortex states of a disordered quantum Hall bilayer, Physical Review B, 80, 2009, 045302-
Abstract
We present and solve a model for the vortex configuration of a disordered quantum Hall bilayer in the limit
of strong and smooth disorder. We argue that there is a characteristic disorder strength below which vortices
will be rare and above which they proliferate. We predict that this can be observed tuning the electron density
in a given sample. The ground state in the strong-disorder regime can be understood as an emulsion of
vortex-antivortex crystals. Its signatures include a suppression of the spatial decay of counterflow currents. We
find an increase of at least an order of magnitude in the length scale for this decay compared to a clean system.
This provides a possible explanation of the apparent absence of leakage of counterflow currents through
interlayer tunneling, even in experiments performed deep in the coherent phase where enhanced interlayer
tunneling is observed.
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Author's Homepage: http://people.tcd.ie/easthamp
Type of material: Journal Article

