Feedback control and characterization of a microcantilever using optical radiation pressure

Abstract

The authors describe a simple method for feedback regulation of the response of a microcantilever using the radiation pressure of a laser. A modified fiber-optic interferometer uses one laser to read out the position of the cantilever and another laser of a different wavelength to apply a force that is a phase-shifted function of that position. The method does not require a high-finesse cavity, and the feedback force is due solely to the momentum of the photons in the second laser. The feedback phase can be adjusted to increase or decrease the microcantilever’s effective quality factor $Q_{\mathrm{eff}}$ and effective temperature $T_{\mathrm{eff}}$ . The authors demonstrate a reduction of both $Q_{\mathrm{eff}}$ and $T_{\mathrm{eff}}$ of a silicon nitride microcantilever by more than a factor of 15 using a root-mean-square optical power variation of $\sim 2\mu \mathrm{W}$ . Additionally, the authors suggest a method for determination of the spring constant of a cantilever using the known force exerted on it by radiation pressure.