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Parametric Feedback Cooling of Levitated Optomechanics in a Parabolic Mirror Trap

Published 9 Mar 2016 in quant-ph and physics.optics | (1603.02917v3)

Abstract: We demonstrate a simple and robust geometry for optical trapping in vacuum of a single nanoparticle based on a parabolic mirror and the optical gradient force, and we demonstrate rapid parametric feedback cooling of all three motional degrees of freedom from room temperature to a few mK. A single laser at 1550nm, and a single photodiode, are used for trapping, position detection, and cooling for all three dimensions. Particles with diameters from 26nm to 160nm are trapped without feedback to 10${-5}$mbar and with feedback engaged the pressure is reduced to 10${-6}$mbar. Modifications to the harmonic motion in the presence of noise and feedback are studied, and an experimental mechanical quality factor $>4\times 107$ is estimated.

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