Bidirectional internal squeezing using opposing optical parametric amplifiers saturates quantum noise lower bounds from internal dissipation and renders high-frequency signal-referred noise independent of arm and signal-extraction transmissivities.
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Derives quantum input-output relations for cavities with diffraction loss and shows vacuum injection increases radiation pressure noise while enabling a noise dip via detuning and homodyne detection for DECIGO.
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Bidirectional Internal Squeezing for Gravitational-Wave Detectors
Bidirectional internal squeezing using opposing optical parametric amplifiers saturates quantum noise lower bounds from internal dissipation and renders high-frequency signal-referred noise independent of arm and signal-extraction transmissivities.
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Quantum Noise from Vacuum Field Injection in Optical Cavities with Diffraction-related Loss
Derives quantum input-output relations for cavities with diffraction loss and shows vacuum injection increases radiation pressure noise while enabling a noise dip via detuning and homodyne detection for DECIGO.