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.
Drezet, Quantizing polaritons in inhomogeneous dissipative systems, Phys
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Presents a Green's function framework for non-Markovian multi-emitter QED in the two-excitation manifold by retaining photonic amplitudes in a hierarchy of coupled equations.
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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.
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Computational framework for non-Markovian multi-emitter dynamics beyond the single-excitation limit
Presents a Green's function framework for non-Markovian multi-emitter QED in the two-excitation manifold by retaining photonic amplitudes in a hierarchy of coupled equations.