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W2025288536 endingPage "1257" @default.
W2025288536 startingPage "1236" @default.
W2025288536 abstract "A theory of saturation spectroscopy is developed which accounts for effects of level degeneracy. The theory can be applied to those situations in which a pump laser field of arbitrary strength and polarization acts between two manifolds of degenerate or nearly degenerate atomic levels, while a probe laser field of arbitrary strength and polarization acts between a coupled manifold of levels. As such, this theory of three-level systems could, in principle, include effects arising from level degeneracy, optical pumping, atomic motion, transient laser fields, different polarizations and strengths for pump and probe fields, and atomic transit across the laser fields. The present calculation, however, is limited to a study of optical pumping and field polarization effects for pump fields of arbitrary strength and weak probe fields interacting with a single velocity subclass of atoms. Probe absorption line shapes clearly display the effects of pump-field strength (Rabi splittings), pump-field polarization (positions and number of Rabi-split resonance peaks), pump-field detuning (positions of resonance peaks), and optical pumping (relative strengths of the resonance peaks). The calculation is carried out with the use of an irreducible tensor basis for the atomic density matrix although a standard ($m$-basis) calculation is included in an appendix." @default.
W2025288536 created "2016-06-24" @default.
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W2025288536 creator A5059605086 @default.
W2025288536 date "1984-03-01" @default.
W2025288536 modified "2023-09-23" @default.
W2025288536 title "Theory of saturation spectroscopy including effects of level degeneracy" @default.
W2025288536 cites W1965353268 @default.
W2025288536 cites W1965845120 @default.
W2025288536 cites W1965861406 @default.
W2025288536 cites W1967929063 @default.
W2025288536 cites W1968524589 @default.
W2025288536 cites W1971114279 @default.
W2025288536 cites W1972796420 @default.
W2025288536 cites W1973787174 @default.
W2025288536 cites W1973834471 @default.
W2025288536 cites W1974394051 @default.
W2025288536 cites W1975336780 @default.
W2025288536 cites W1976073689 @default.
W2025288536 cites W1977642321 @default.
W2025288536 cites W1978837523 @default.
W2025288536 cites W1979117380 @default.
W2025288536 cites W1984441339 @default.
W2025288536 cites W1987860015 @default.
W2025288536 cites W1989232031 @default.
W2025288536 cites W1991433864 @default.
W2025288536 cites W1998223667 @default.
W2025288536 cites W2002885612 @default.
W2025288536 cites W2008222139 @default.
W2025288536 cites W2014055753 @default.
W2025288536 cites W2015225412 @default.
W2025288536 cites W2016941291 @default.
W2025288536 cites W2019556641 @default.
W2025288536 cites W2020613398 @default.
W2025288536 cites W2021680723 @default.
W2025288536 cites W2026441655 @default.
W2025288536 cites W2027249126 @default.
W2025288536 cites W2030188122 @default.
W2025288536 cites W2036761756 @default.
W2025288536 cites W2037255735 @default.
W2025288536 cites W2039253541 @default.
W2025288536 cites W2048474858 @default.
W2025288536 cites W2056034525 @default.
W2025288536 cites W2058775970 @default.
W2025288536 cites W2062758204 @default.
W2025288536 cites W2063100381 @default.
W2025288536 cites W2064700075 @default.
W2025288536 cites W2067314439 @default.
W2025288536 cites W2071871647 @default.
W2025288536 cites W2079837666 @default.
W2025288536 cites W2081093812 @default.
W2025288536 cites W2088291004 @default.
W2025288536 cites W2088473030 @default.
W2025288536 cites W2090099871 @default.
W2025288536 cites W2090204978 @default.
W2025288536 cites W2091306098 @default.
W2025288536 cites W2093154983 @default.
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W2025288536 cites W2990732331 @default.
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W2025288536 cites W4243129570 @default.
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W2025288536 cites W4293039876 @default.
W2025288536 cites W4300596825 @default.
W2025288536 cites W2067939610 @default.
W2025288536 doi "https://doi.org/10.1103/physreva.29.1236" @default.
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