All-Optical Optomechanics: An Optical Spring Mirror

Swati Singh; Gregory Phelps; Dan Goldbaum; Ewan Wright; Pierre Meystre

All-Optical Optomechanics: An Optical Spring Mirror

POSTER

Abstract

The dominant hurdle to the operation of optomechanical systems in the quantum regime is the coupling of the vibrating element to a thermal reservoir via mechanical supports. Here we propose a scheme that uses an optical spring to replace the mechanical support. We show that the resolved-sideband regime of cooling can be reached in a configuration using a high-reflectivity disk mirror held by an optical tweezer as one of the end mirrors of a Fabry-Perot cavity. We find a final phonon occupation number of the trapped mirror ${\bar n}$= 0.56 for reasonable parameters, the limit being set by our approximations, and not any fundamental physics. This demonstrates the promise of dielectric disks attached to optical springs for the observation of quantum effects in macroscopic objects.

Authors

Swati Singh

B2 Institute, Department of Physics and College of Optical Sciences, The University of Arizona, Tucson, Arizona 85721, Department of Physics, College of Optical Sciences and B2 Institute, University of Arizona, B2 Institute, Department of Physics, and College of Optical Sciences, The University of Arizona
Gregory Phelps

Department of Physics, College of Optical Sciences and B2 Institute, University of Arizona
Dan Goldbaum

Department of Physics, College of Optical Sciences and B2 Institute, University of Arizona, The University of Arizona
Ewan Wright

College of Optical Sciences, University of Arizona, University of Arizona
Pierre Meystre

Department of Physics, College of Optical Sciences and B2 Institute, University of Arizona, The University of Arizona, University of Arizona, B2 Institute, Department of Physics, and College of Optical Sciences, The University of Arizona