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Paper detail

Connecting strongly correlated superfluids by a quantum point contact

Point contacts provide simple connections between macroscopic particle reservoirs. In electric circuits, strong links between metals, semiconductors or superconductors have applications for fundamental condensed-matter physics as well as quantum information processing. However for complex, strongly correlated materials, links have been largely restricted to weak tunnel junctions. Here we study resonantly interacting Fermi gases connected by a tunable, ballistic quantum point contact, finding a non-linear current-bias relation. At low temperature, our observations agree quantitatively with a theoretical model in which the current originates from multiple Andreev reflections. In a wide contact geometry, the competition between superfluidity and thermally activated transport leads to a conductance minimum. Our system offers a controllable platform for the study of mesoscopic devices based on strongly interacting matter.

preprint2015arXivOpen access
Dominik HusmannShun UchinoSebastian KrinnerMartin LebratThierry GiamarchiTilman EsslingerJean-Philippe Brantut
cond-mat.quant-gas
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Open access7 authors1 topic
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Dominik HusmannShun UchinoSebastian KrinnerMartin LebratThierry GiamarchiTilman EsslingerJean-Philippe Brantut

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