Total current blockade in an ultracold dipolar quantum wire.
Kristinsdottir, Liney Halla; Karlström, Olov; Bjerlin, Johannes; Cremon, Jonas, et al. (2013). Total current blockade in an ultracold dipolar quantum wire.. Physical Review Letters, 110, (8)
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Published
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English
Authors:
Kristinsdottir, Liney Halla
;
Karlström, Olov
;
Bjerlin, Johannes
;
Cremon, Jonas
, et al.
Department:
Mathematical Physics
Linne Center for Nanoscience and Quantum Engineering-lup-obsolete
NanoLund: Centre for Nanoscience
Research Group:
Linne Center for Nanoscience and Quantum Engineering-lup-obsolete
Abstract:
Cold-atom systems offer a great potential for the future design of new mesoscopic quantum systems with properties that are fundamentally different from semiconductor nanostructures. Here, we investigate the quantum-gas analogue of a quantum wire and find a new scenario for the quantum transport: Attractive interactions may lead to a complete suppression of current in the low-bias range, a total current blockade. We demonstrate this effect for the example of ultracold quantum gases with dipolar interactions.
Keywords:
Physical Sciences ;
Condensed Matter Physics
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