Squeezing in the coherent photon state for nonlinear Compton scattering reduces to frequency modulation of the plane-wave field, significantly altering the emission spectrum and photon yield at available squeezing levels.
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Non-degenerate pumping of an NbN half-wave resonator parametric amplifier achieves 26 dB peak gain with 0.5 MHz bandwidth, fourfold better gain stability, and 23 dB gain with 6 dB squeezing in phase-sensitive mode.
Suppressing the coherent Rayleigh component in the source qubit's fluorescence in a cascaded two-qubit waveguide-QED system makes the probe's quantum wave mixing spectrum suppress sidebands from odd numbers of source photons, confirming correlated photon pair participation.
citing papers explorer
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Nonlinear Compton scattering in a frequency-modulated field
Squeezing in the coherent photon state for nonlinear Compton scattering reduces to frequency modulation of the plane-wave field, significantly altering the emission spectrum and photon yield at available squeezing levels.
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Non-degenerate pumping of superconducting resonator parametric amplifier with evidence of phase-sensitive amplification
Non-degenerate pumping of an NbN half-wave resonator parametric amplifier achieves 26 dB peak gain with 0.5 MHz bandwidth, fourfold better gain stability, and 23 dB gain with 6 dB squeezing in phase-sensitive mode.
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Photon pairs, squeezed light and the quantum wave mixing effect in a cascaded qubit system
Suppressing the coherent Rayleigh component in the source qubit's fluorescence in a cascaded two-qubit waveguide-QED system makes the probe's quantum wave mixing spectrum suppress sidebands from odd numbers of source photons, confirming correlated photon pair participation.