Exact steady states are derived for interacting dissipative fermionic systems with hidden time-reversal symmetry, revealing a first-order particle density phase transition that survives finite dissipation.
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Density-density interactions transfer bath-induced non-reciprocity to uncoupled degrees of freedom, inducing directional drift in open quantum many-body systems.
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Exact steady states of interacting driven dissipative fermionic systems with hidden time-reversal symmetry
Exact steady states are derived for interacting dissipative fermionic systems with hidden time-reversal symmetry, revealing a first-order particle density phase transition that survives finite dissipation.
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Interaction-Mediated Non-Reciprocal Dynamics in Open Quantum Systems: From an Exactly Solvable Model to Generic Behavior
Density-density interactions transfer bath-induced non-reciprocity to uncoupled degrees of freedom, inducing directional drift in open quantum many-body systems.