A new theoretical framework describes retarded interactions between quasinormal modes of separated lossy cavities and quantum emitters via a bath of propagating photons using system-bath correlation functions.
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Non-reciprocal and chiral magnons mediate dissipative coupling of spin qubits to achieve steady-state Bell state entanglement in a driven hybrid NV-YIG system.
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Quantum dynamics of coupled quasinormal modes and quantum emitters interacting via finite-delay propagating photons
A new theoretical framework describes retarded interactions between quasinormal modes of separated lossy cavities and quantum emitters via a bath of propagating photons using system-bath correlation functions.
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Steady-state entanglement of spin qubits mediated by non-reciprocal and chiral magnons
Non-reciprocal and chiral magnons mediate dissipative coupling of spin qubits to achieve steady-state Bell state entanglement in a driven hybrid NV-YIG system.