Continuous atomic-recoil lasing of strontium atoms in a high finesse ring cavity

Zhijing Niu; Vera M Schäfer; Julia R Cline; Dylan J Young; Eric Song; James K Thompson

Continuous atomic-recoil lasing of strontium atoms in a high finesse ring cavity

POSTER

Abstract

We continuously load 88-strontium atoms into a high finesse ring cavity and observe coherent light emission over a large range of atom-cavity detuning. We identify four different lasing regimes, depending on the atom-cavity detuning and characterized in part by the dependency of the laser light’s frequency dependence on the applied laser cooling beams. While there are many open questions as to the exact mechanism of the observed lasing, we currently believe that the laser light arises from an inversion in momentum space that combines with atomic-recoil [1, 2] from absorption and emission of the laser cooling beams to produce optical gain.

[1] J.-Y. Courtois, G. Grynberg, B. Lounis, et al. Phys. Rev. Lett. 72, 3017 (1994)

[2] D. Kruse, C. von Cube, C. Zimmermann, et al. Phys. Rev. Lett. 91, 183601 (2003)

^*This work is supported by QLCI Q-SEnSE under grant OMA 2016244, DOE QSA under grant 7565477, NSF PFC under grant PHY 1734006+, DARPA/ARO, and NIST.

Presenters

Zhijing Niu
- University of Colorado Boulder, JILA
- JILA

Authors

Zhijing Niu
- University of Colorado Boulder, JILA
- JILA
Vera M Schäfer
- JILA, University of Colorado
Julia R Cline
- JILA, University of Colorado Boulder
Dylan J Young
- JILA
Eric Song
- JILA
- University of Colorado Boulder, JILA
James K Thompson
- JILA, CU Boulder
- JILA, University of Colorado Boulder