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W2594642893 abstract "Spontaneous synchronization is a significant collective behavior of weakly coupled systems. Due to their inherent nonlinear nature, optomechanical systems can exhibit self-sustained oscillations which can be exploited for synchronizing different mechanical resonators. In this paper, we explore the synchronization dynamics of two membranes coupled to a common optical field within a cavity, and pumped with a strong blue-detuned laser drive. We focus on the system quantum dynamics in the parameter regime corresponding to synchronization of the classical motion of the two membranes. With an appropriate definition of the phase difference operator for the resonators, we study synchronization in the quantum case through the covariance matrix formalism. We find that for sufficiently large driving, quantum synchronization is robust with respect to quantum fluctuations and to thermal noise up to not too large temperatures. Under synchronization, the two membranes are never entangled, while quantum discord behaves similarly to quantum synchronization, that is, it is larger when the variance of the phase difference is smaller." @default.
W2594642893 created "2017-03-16" @default.
W2594642893 creator A5000214822 @default.
W2594642893 creator A5007898546 @default.
W2594642893 creator A5024886630 @default.
W2594642893 creator A5044138580 @default.
W2594642893 creator A5085586523 @default.
W2594642893 date "2017-08-02" @default.
W2594642893 modified "2023-10-18" @default.
W2594642893 title "Synchronization dynamics of two nanomechanical membranes within a Fabry-Perot cavity" @default.
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W2594642893 doi "https://doi.org/10.1103/physreva.96.023805" @default.
W2594642893 hasPublicationYear "2017" @default.
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