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Paper detail

Dissipation Mechanisms in Fermionic Josephson Junction

We characterize numerically the dominant dynamical regimes in a superfluid ultracold fermionic Josephson junction. Beyond the coherent Josephson plasma regime, we discuss the onset and physical mechanism of dissipation due to the superflow exceeding a characteristic speed, and provide clear evidence distinguishing its physical mechanism across the weakly- and strongly-interacting limits, despite qualitative dynamics of global characteristics being only weakly sensitive to the operating dissipative mechanism. Specifically, dissipation in the strongly interacting regime occurs through the phase-slippage process, caused by the emission and propagation of quantum vortices, and sound waves -- similar to the Bose-Einstein condensation limit. Instead, in the weak interaction limit, the main dissipative channel arises through the pair-breaking mechanism.

preprint2023arXivOpen access
Gabriel WlazłowskiKlejdja XhaniMarek TylutkiNikolaos P. ProukakisPiotr Magierski
cond-mat.supr-concond-mat.quant-gas
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Gabriel WlazłowskiKlejdja XhaniMarek TylutkiNikolaos P. ProukakisPiotr Magierski

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