Title :
Transient CPT signals arising from rapid changes in laser polarization
Author :
Camparo, J. ; Huang, M. ; Coffer, J.
Author_Institution :
Phys. Sci. Labs., Aerosp. Corp., El Segundo, CA
Abstract :
In chip-scale atomic clocks based on coherent-population-trapping (CPT), the laser of choice is a VCSEL due to its low threshold current, very high quantum efficiency, and large dynamic bandwidth. A problem with these lasers, however, is that they suffer from polarization fluctuations, which could degrade CPT signal-to-noise ratios. In previous work we found that a rapid change in laser polarization led to a multi-exponential variation of the light intensity transmitted through a resonant Rb vapor. Here, we show that this is not a systematic effect, but is a result of atomic dynamics. Specifically, we show that the change in transmitted light intensity arises from both a change in the system´s trapping state and a re-establishment of the atomic coherence that is at the heart of the CPT signal.
Keywords :
atom-photon collisions; atomic clocks; light coherence; light polarisation; microwave photonics; quantum optics; radiation pressure; rubidium; semiconductor lasers; surface emitting lasers; Rb; VCSEL; atomic coherence; atomic dynamics; chip-scale atomic clocks; laser polarization; light intensity transmission; multiexponential transient; polarization fluctuations; resonant rubidium vapor; system trapping state; transient coherent-population-trapping signals; Atom lasers; Atomic clocks; Bandwidth; Degradation; Fluctuations; Laser transitions; Optical polarization; Signal to noise ratio; Threshold current; Vertical cavity surface emitting lasers;
Conference_Titel :
Frequency Control Symposium, 2008 IEEE International
Conference_Location :
Honolulu, HI
Print_ISBN :
978-1-4244-1794-0
Electronic_ISBN :
1075-6787
DOI :
10.1109/FREQ.2008.4623082
