(B1) between the systems nonreciprocal First, we assume that [ ˆA, ˆXB] = [ ˆB, ˆXA] = [ ˆA, ˆB] = 0 for all operators ˆXi of systemi

The standard formulation The general standard formulation to engineer a noreciprocal interaction is as follows [31]: Given two quantum systemsAandBthat have no existing interac

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Exact steady states of interacting driven dissipative fermionic systems with hidden time-reversal symmetry

quant-ph · 2026-05-11 · unverdicted · novelty 7.0

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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Exact steady states of interacting driven dissipative fermionic systems with hidden time-reversal symmetry quant-ph · 2026-05-11 · unverdicted · none · ref 5
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.

(B1) between the systems nonreciprocal First, we assume that [ ˆA, ˆXB] = [ ˆB, ˆXA] = [ ˆA, ˆB] = 0 for all operators ˆXi of systemi

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