Optical read out and feedback cooling of a nanostring optomechanical cavity

Abstract

Optical measurement of the motion of a 940 kHz mechanical resonance of a silicon nitride nanostring resonator is demonstrated with a read out noise imprecision reaching 37 dB below that of the resonator's zero-point fluctuations. Via intensity modulation of the optical probe laser, radiation pressure feedback is used to cool and damp the mechanical mode from an initial room temperature occupancy of nb = 6.5 × 106 (Tb=295K) down to a phonon occupation of n = 66 10, representing a mode temperature of Tm ≈ 3mK. The five decades of cooling is enabled by the system's large single-photon cooperativity (C1 = 4) and high quantum efficiency of optical motion detection (ηt = 0.27).