Atomic clock stability under dynamic excitation of coherent population trapping resonance in cells without buffer gas
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SPIE
Reference23 articles.
1. Atomic clock based on a coherent population trapping resonance in 87Rb with improved high-frequency modulation parameters;Khripunov,2015
2. The NAC - a miniature CPT Rubidium clock
3. Rubidium chip-scale atomic clock with improved long-term stability through light intensity optimization and compensation for laser frequency detuning
4. Coherent population trapping for the realization of a small, stable, atomic clock
5. Atomic clocks based on coherent population trapping: a review
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