Quantum Theory of Cavity-Assisted Sideband Cooling of Mechanical Motion

We present a quantum-mechanical theory of the cooling of a cantilever coupled via radiation pressure to an illuminated optical cavity. Applying the quantum noise approach to the fluctuations of the radiation pressure force, we derive the optomechanical cooling rate and the minimum achievable phonon number. We find that reaching the quantum limit of arbitrarily small phonon numbers requires going into the good-cavity (resolved phonon sideband) regime where the cavity linewidth is much smaller than the mechanical frequency and the corresponding cavity detuning. This is in contrast to the common assumption that the mechanical frequency and the cavity detuning should be comparable to the cavity damping.

• NS
  National Science Foundation

  Awards: 0325580, 0603369, 0342157
• DF
  Deutsche Forschungsgemeinschaft

  Award: SFB 631
• NS
  Natural Sciences and Engineering Research Council of Canada
• DO
  Division of Materials Research