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arxiv: 1903.04720 · v3 · pith:MEWK5FL7 · submitted 2019-03-12 · cond-mat.quant-gas · cond-mat.supr-con· quant-ph

Theory of Non-Hermitian Fermionic Superfluidity with a Complex-Valued Interaction

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classification cond-mat.quant-gas cond-mat.supr-conquant-ph
keywords superfluidityattractivecomplex-valueddissipationfermionichamiltonianinelasticinteraction
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Motivated by recent experimental advances in ultracold atoms, we analyze a non-Hermitian (NH) BCS Hamiltonian with a complex-valued interaction arising from inelastic scattering between fermions. We develop a mean-field theory to obtain a NH gap equation for order parameters, which are different from the standard BCS ones due to the inequivalence of left and right eigenstates in the NH physics. We find unconventional phase transitions unique to NH systems: superfluidity shows reentrant behavior with increasing dissipation, as a consequence of non-diagonalizable exceptional points, lines, and surfaces in the quasiparticle Hamiltonian for weak attractive interactions. For strong attractive interactions, the superfluid gap never collapses but is enhanced by dissipation due to an interplay between the BCS-BEC crossover and the quantum Zeno effect. Our results lay the groundwork for studies of fermionic superfluidity subject to inelastic collisions.

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