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Tuesday, June 11, 2019

Cavity Cooling of a Levitated Nanosphere by Coherent Scattering

Uroš Delić, Manuel Reisenbauer, David Grass, Nikolai Kiesel, Vladan Vuletić, and Markus Aspelmeyer

We report three-dimensional (3D) cooling of a levitated nanoparticle inside an optical cavity. The cooling mechanism is provided by cavity-enhanced coherent scattering off an optical tweezer. The observed 3D dynamics and cooling rates are as theoretically expected from the presence of both linear and quadratic terms in the interaction between the particle motion and the cavity field. By achieving nanometer-level control over the particle location we optimize the position-dependent coupling and demonstrate axial cooling by two orders of magnitude at background pressures of 6×10−2 mbar. We also estimate a significant (>40dB) suppression of laser phase noise heating, which is a specific feature of the coherent scattering scheme. The observed performance implies that quantum ground state cavity cooling of levitated nanoparticles can be achieved for background pressures below 1×10−7mbar.

DOI

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