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Qantum theory of optomechanical cooling

Quantum Physics 2009-11-13 v1
Authors: Florian Marquardt , A. A. Clerk , S. M. Girvin
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Abstract

We review the quantum theory of cooling of a mechanical oscillator subject to the radiation pressure force due to light circulating inside a driven optical cavity. Such optomechanical setups have been used recently in a series of experiments by various groups to cool mechanical oscillators (such as cantilevers) by factors reaching 10510^{5}, and they may soon go to the ground state of mechanical motion. We emphasize the importance of the sideband-resolved regime for ground state cooling, where the cavity ring-down rate is smaller than the mechanical frequency. Moreover, we illustrate the strong coupling regime, where the cooling rate exceeds the cavity ring-down rate and where the driven cavity resonance and the mechanical oscillation hybridize.

Keywords

cavity optomechanics laser cooling and trapping cavity quantum electrodynamics

Cite

@article{arxiv.0803.1164,
  title  = {Qantum theory of optomechanical cooling},
  author = {Florian Marquardt and A. A. Clerk and S. M. Girvin},
  journal= {arXiv preprint arXiv:0803.1164},
  year   = {2009}
}

Comments

12 pages, 3 figures, brief review submitted to Journal of Modern Optics, for the proceedings of the "Physics of Quantum Electronics" conference (Snowbird, 2008)

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