Finite direct phonon-phonon coupling in a two-mirror parametrically assisted optomechanical cavity mixes a weakly participating collective mode into the optically visible spectrum, rendering a third resonance resolvable.
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Incorporating quantum phase estimation with highly entangled multi-clock states allows uncertainty in proper-time differences to scale as 1/N, surpassing the standard projection-noise limit.
citing papers explorer
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Phonon-phonon interaction as a control knob for multimode splitting in a two mirror parametrically assisted optomechanical cavity
Finite direct phonon-phonon coupling in a two-mirror parametrically assisted optomechanical cavity mixes a weakly participating collective mode into the optically visible spectrum, rendering a third resonance resolvable.
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Enhanced Precision in Entangled Quantum Clocks with Phase Estimation Algorithm
Incorporating quantum phase estimation with highly entangled multi-clock states allows uncertainty in proper-time differences to scale as 1/N, surpassing the standard projection-noise limit.