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arxiv: 1903.05901 · v2 · pith:GV7M4DPXnew · submitted 2019-03-14 · 🪐 quant-ph

Conditional dynamics of optomechanical two-tone backaction-evading measurements

classification 🪐 quant-ph
keywords optomechanicalconditionalmechanicalbackaction-evadingentanglementquantumsqueezinganalysis
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Backaction-evading measurements of mechanical motion can achieve precision below the zero-point uncertainty and quantum squeezing, which makes them a resource for quantum metrology and quantum information processing. We provide an exact expression for the conditional state of an optomechanical system in a two-tone backaction-evading measurement beyond the standard adiabatic approximation and perform extensive numerical simulations to go beyond the usual rotating-wave approximation. We predict the simultaneous presence of conditional mechanical squeezing, intra-cavity squeezing, and optomechanical entanglement. We further apply an analogous analysis to the multimode optomechanical system of two mechanical and one cavity mode and find conditional mechanical Einstein-Podolski-Rosen entanglement and genuinely tripartite optomechanical entanglement. Our analysis is of direct relevance for state-of-the-art optomechanical experiments that have entered the backaction-dominated regime.

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