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- Title
Spectroscopy of the three-photon laser excitation of cold Rubidium Rydberg atoms in a magneto-optical trap.
- Authors
Entin, V.; Yakshina, E.; Tretyakov, D.; Beterov, I.; Ryabtsev, I.
- Abstract
The spectra of the three-photon laser excitation 5 S → 5 P → 6 S nP of cold Rb Rydberg atoms in an operating magneto-optical trap based on continuous single-frequency lasers at each stage are studied. These spectra contain two partly overlapping peaks of different amplitudes, which correspond to coherent three-photon excitation and incoherent three-step excitation due to the presence of two different ways of excitation through the dressed states of intermediate levels. A four-level theoretical model based on optical Bloch equations is developed to analyze these spectra. Good agreement between the experimental and calculated data is achieved by introducing additional decay of optical coherence induced by a finite laser line width and other broadening sources (stray electromagnetic fields, residual Doppler broadening, interatomic interactions) into the model.
- Subjects
RYDBERG states; MAGNETOOPTICS; RUBIDIUM; ELECTRONIC excitation; SPECTRUM analysis; ELECTROMAGNETIC fields; ATOM-atom collisions
- Publication
Journal of Experimental & Theoretical Physics, 2013, Vol 116, Issue 5, p721
- ISSN
1063-7761
- Publication type
Article
- DOI
10.1134/S1063776113040110