Optical losses degrade the sensitivity of laser interferometric instruments. They reduce the number of signal photons and introduce technical noise associated with diffuse light. In quantum-enhanced metrology, they break the entanglement between correlated photons. Such decoherence is one of the primary obstacles in achieving high levels of quantum noise reduction in precision metrology. In this work, we compare direct measurements of cavity and mirror losses in the Caltech 40 m gravitational-wave detector prototype interferometer with numerical estimates obtained from semi-analytic intra-cavity wavefront simulations using mirror surface profile maps. We show a unified approach to estimating the total loss in optical cavities (such as the LIGO gravitational detectors) that will lead towards the engineering of systems with minimum decoherence for quantum-enhanced precision metrology.
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Direct approach for the fluctuation-dissipation theorem under nonequilibrium steady-state conditionsKomori, Kentaro ; Enomoto, Yutaro ; Takeda, Hiroki ; Michimura, Yuta ; Somiya, Kentaro ; Ando, Masaki ; Ballmer, Stefan W. ( , Physical Review D)
