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arxiv: 2408.03494 · v3 · pith:5P4TTRZ5 · submitted 2024-08-07 · cond-mat.quant-gas · cond-mat.mes-hall· cond-mat.str-el· quant-ph

Correlation versus dissipation in a non-Hermitian Anderson impurity model

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classification cond-mat.quant-gas cond-mat.mes-hallcond-mat.str-elquant-ph
keywords dissipationregimeimpuritykondonon-hermitianquantumlossone-body
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We analyze the competition between strong correlations and dissipation in quantum impurity systems from the Kondo regime to the valence fluctuation regime by developing a slave-boson theory for a non-Hermitian Anderson impurity model with one-body loss. Notably, in the non-Hermitian Kondo regime, strong correlations qualitatively change the nature of dissipation through renormalization effects, where the effective one-body loss is suppressed and emergent many-body dissipation characterized by the complex-valued hybridization is generated. We unveil the mechanism of a dissipative quantum phase transition of the Kondo state on the basis of this renormalization effect, which counterintuitively enhances the lifetime of the impurity against loss. We also find a crossover from the non-Hermitian Kondo regime to the valence fluctuation regime dominated by one-body dissipation. Our results can be tested in a wide variety of setups such as quantum dots coupled to electronic leads and quantum point contacts in ultracold Fermi gases.

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