Cavity optomechanics in gallium phosphide microdisks

Abstract

We demonstrate gallium phosphide (GaP) microdisk optical cavities with intrinsic quality factors > 2.8×105 and mode volumes < 10 (λ/n)3, and study their nonlinear and optomechanical properties. For optical intensities up to 8.0×104 intracavity photons, we observe optical loss in the microcavity to decrease with increasing intensity, indicating that saturable absorption sites are present in the GaP material, and that two-photon absorption is not significant. We observe optomechanical coupling between optical modes of the microdisk around 1.5 μm and several mechanical resonances, and measure an optical spring effect consistent with a theoretically predicted optomechanical coupling rate g0/2π 30 kHz for the fundamental mechanical radial breathing mode at 488 MHz.