Micromechanical oscillators in the rf range were fabricated in the form of
silicon discs supported by a SiO2 pillar at the disk center. A low-power la
ser beam, (P-laser similar to 100 muW), focused at the periphery of the dis
k, causes a significant change of the effective spring constant producing a
frequency shift, Deltaf(Deltaf/f similar to 10(-4)). The high quality fact
or, Q, of the disk oscillator (Q similar to 10(4)) allows us to realize par
ametric amplification of the disk's vibrations through a double frequency m
odulation of the laser power. An amplitude gain of up to 30 was demonstrate
d, with further increase limited by nonlinear behavior and self-generation.
Phase dependence, inherent in degenerate parametric amplification, was als
o observed. Using this technique, the sensitivity of detection of a small f
orce is greatly enhanced. (C) 2001 American Institute of Physics.