A Stable Optical Trap from a Single Optical Field Utilizing Birefringence

Abstract

We report a stable double optical spring effect in an optical cavity pumped with a single optical field that arises as a result of birefringence. One end of the cavity is formed by a multilayer Al0.92Ga0.08As/GaAs stack supported by a microfabricated cantilever, with a natural mode frequency of 274 Hz. The optical spring shifts the resonance to 21 kHz, corresponding to a suppression of low frequency vibrations by a factor of more than 104. The stable nature of the optical trap allows the cavity to be operated without any external feedback and with only a single optical field incident.