Three-body interactions enable perfect photon blockade that breaks the purity-brightness trade-off and operates robustly across broad parameters.
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Loss-induced phases in auxiliary cavities create asymmetric interference, yielding tunable nonreciprocal couplings and entanglement between remote transmon qubits.
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Photon blockade via three-body interactions: toward high-purity and bright single-photon sources
Three-body interactions enable perfect photon blockade that breaks the purity-brightness trade-off and operates robustly across broad parameters.
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Loss-induced quantum nonreciprocity and entanglement in superconducting qubits
Loss-induced phases in auxiliary cavities create asymmetric interference, yielding tunable nonreciprocal couplings and entanglement between remote transmon qubits.