We present a simple and effective method for frequency locking a laser source to a free-space-coupled whispering-gallery- mode cavity. The scheme relies on the interference of spatial modes contained in the light scattered by the cavity, where low-and high-order modes are simultaneously excited. A dispersion-shaped signal proportional to the imaginary component of the resonant optical field is simply generated by spatial filtering of the scattered light. Locking of a diode laser to the equatorial modes of a liquid droplet resonator is demonstrated using this scheme, and its performance is compared to the Pound-Drever-Hall technique. This new approach makes laser-frequency locking straightforward and shows a number of advantages, including robustness, low cost, and no need for sophisticated optical and electronic components. (C) 2016 Optical Society of America
Laser-frequency locking to a whispering-gallery-mode cavity by spatial interference of scattered light
Zullo R;Giorgini A;Avino S;Malara P;De Natale P;Gagliardi G
2016
Abstract
We present a simple and effective method for frequency locking a laser source to a free-space-coupled whispering-gallery- mode cavity. The scheme relies on the interference of spatial modes contained in the light scattered by the cavity, where low-and high-order modes are simultaneously excited. A dispersion-shaped signal proportional to the imaginary component of the resonant optical field is simply generated by spatial filtering of the scattered light. Locking of a diode laser to the equatorial modes of a liquid droplet resonator is demonstrated using this scheme, and its performance is compared to the Pound-Drever-Hall technique. This new approach makes laser-frequency locking straightforward and shows a number of advantages, including robustness, low cost, and no need for sophisticated optical and electronic components. (C) 2016 Optical Society of AmericaI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
