A general non-equilibrium formalism for optomechanical forces on lossy bodies recovers Casimir and radiation pressure limits and predicts a purely quantum force from anisotropic squeezed vacuum relying only on second-order field correlations.
Kashiwazakiet al., Continuous-wave 6-dB-squeezed light with 2.5-THz-bandwidth from single-mode PPLN waveguide, APL Photonics5, 036104 (2020)
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Quantum optomechanics of lossy bodies: general approach and structured squeezed vacuum effects
A general non-equilibrium formalism for optomechanical forces on lossy bodies recovers Casimir and radiation pressure limits and predicts a purely quantum force from anisotropic squeezed vacuum relying only on second-order field correlations.