1. Spectroscopy of coherent dark resonances in samarium
- Author
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N. A. Kiselev, S. Kanorski, Alexey V. Akimov, Victor N. Zadkov, J. V. Vladimirova, Nikolai N. Kolachevsky, V. N. Sorokin, and Boris A. Grishanin
- Subjects
Physics ,education.field_of_study ,Magnetism ,Population ,Resonance ,chemistry.chemical_element ,Trapping ,Lambda ,Spectral line ,Samarium ,chemistry ,Quantum mechanics ,Atomic physics ,Spectroscopy ,education - Abstract
A theoretical model of the coherent population trapping (CPT) in multilevel samarium atom and its comparison with experimental spectroscopic data are presented. Theoretical model describes a degenerated (Lambda) -system in Sm atom formed of the transitions 4f66s2(7F0) mutually implies 4f6(7F)6s6p(3Po)9Fo1 mutually implies 4f66s2(7F1) and includes also a fourth level 4f66s2(7F2), which complements the model making it an open system. An open character of the system reduces the contrast of the resonance curves in the CPT- spectra, but does not change the width of the CPT resonance. Numerical modeling of the CPT resonances in Sm atom was carried out for the case of applied longitudinal and transverse magnetic fields in 7- and 12-level models, as well.
- Published
- 2002
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