Optical gyroscope with controllable dispersion in four wave mixing regime.

Eugeniy Mikhailov; Owen Wolfe; ShuangLi Du; Simon Rochester; Dmitry Budker; Irina Novikova

Optical gyroscope with controllable dispersion in four wave mixing regime.

ORAL

Abstract

We present our work towards realization of the fast-light gyroscope prototype, in which the sensitivity enhancement (compared to a regular laser gyroscopes) is achieved by adjusting the intra-cavity dispersion. We discuss schematics and underlying nonlinear effects leading to the negative dispersion in Rb vapor: level structure, optically addressed transitions, and configuration of the resonant cavity. We investigate dependence of the pulling factor (i.e., the ratio of the lasing frequency shift with the change of the cavity length to the equivalent resonance frequency shift in the empty cavity) on pump lasers detunings, power, and density of the atomic vapor. The observation of the pulling factor exceeding unity implies the gyroscope sensitivity improvement over the regular system

^*This work is supported by Naval Air Warfare Center STTR program N68335-11-C-0428.

May 24, 2016, 10:30 AM – May 24, 2016, 10:42 AM

Authors

Eugeniy Mikhailov
- The College of William & Mary, Williamsburg, VA 23185, USA
- College of William and Mary
Owen Wolfe
- The College of William & Mary, Williamsburg, VA 23185, USA
- College of William and Mary
ShuangLi Du
- William and Mary College
- William & Mary Coll
- College of William and Mary
Simon Rochester
- Rochester Scientific, LLC
Dmitry Budker
- Helmholtz Institute Mainz, Johannes Gutenberg University and the University of California - Berkeley
- Helmholtz Institute, Mainz, Johannes Gutenburg University. University of California, Berkekey
- Rochester Scientific, LLC
Irina Novikova
- The College of William & Mary, Williamsburg, VA 23185, USA
- College of William and Mary