Non-Markovian quantum Langevin analysis of simple LC and bandpass filter couplings to Josephson parametric devices yields modified gain profiles with bandwidth broadening beyond standard Markovian predictions.
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Numerical simulations of a Kerr parametric resonator at criticality show enhanced switching probability for single-quanta microwave probes.
A tantalum thin-film superconducting device produces on-demand microwave single photons with clear antibunching behavior.
citing papers explorer
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Modeling of simple bandpass filters: bandwidth broadening of Josephson parametric devices due to non-Markovian coupling to dressed transmission-line modes
Non-Markovian quantum Langevin analysis of simple LC and bandpass filter couplings to Josephson parametric devices yields modified gain profiles with bandwidth broadening beyond standard Markovian predictions.
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Numerical simulation methods for quantum sensing at parametric criticality
Numerical simulations of a Kerr parametric resonator at criticality show enhanced switching probability for single-quanta microwave probes.
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On-Demand Microwave Single-Photon Source Based on Tantalum Thin Film
A tantalum thin-film superconducting device produces on-demand microwave single photons with clear antibunching behavior.