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Light effects in the atomic-motion-induced Ramsey narrowing of dark resonances in wall-coated cells
Auteur(s)
Breschi, Evelina
Kazakov, G.
Litvinov, A.
Matisov, B.
Date de parution
2010
In
Physical Review A, American Physical Society (APS), 2010/82/063810/1-7
Résumé
We report on light shift and broadening in the atomic-motion-induced Ramsey narrowing of dark resonances prepared in alkali-metal vapors contained in wall-coated cells without buffer gas. The atomic-motion-induced Ramsey narrowing is due to the free motion of the polarized atomic spins in and out of the optical interaction region before spin relaxation. As a consequence of this effect, we observe a narrowing of the dark resonance linewidth as well as a reduction of the ground states’ light shift when the volume of the interaction region decreases at constant optical intensity. The results can be intuitively interpreted as a dilution of the intensity effect similar to a pulsed interrogation due to the atomic motion. Finally the influence of this effect on the performance of compact atomic clocks is discussed.
Identifiants
Type de publication
journal article
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