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Paper detail

Cooling and control of a cavity opto-electromechanical system

We implement a cavity opto-electromechanical system integrating electrical actuation capabilities of nanoelectromechanical devices with ultrasensitive mechanical transduction achieved via intra-cavity optomechanical coupling. Electrical gradient forces as large as 0.40 microN are realized, with simultaneous mechanical transduction sensitivity of 1.5 X 10^-18 m/rtHz representing a three orders of magnitude improvement over any nanoelectromechanical system to date. Opto-electromechanical feedback cooling is demonstrated, exhibiting strong squashing of the in-loop transduction signal. Out-of-loop transduction provides accurate temperature calibration even in the critical paradigm where measurement backaction induces opto-mechanical correlations.

preprint2010arXivOpen access
Kwan H. LeeTerry G. McRaeGlen I. HarrisJoachim KnittelWarwick P. Bowen
cond-mat.mes-hallphysics.opticsquant-ph
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Kwan H. LeeTerry G. McRaeGlen I. HarrisJoachim KnittelWarwick P. Bowen

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