Using an external cavity-tuned diode laser in Doppler-free saturationspectroscopy, we are able to resolve the weak-held Zeeman splittingsin the hyperfine levels of the rubidium D-1 line. The number of linesobserved in the Zeeman structure of rubidium and their measured energy-levelsplittings are as expected from theory. The measured amplitudes ofthe saturated-absorption signals, crossover resonances, and velocity-selectiveoptical pumping signals are used in the analysis of various theoriesconcerning saturated-absorption spectroscopy. (C) 1995 Optical Societyof America
CITATION STYLE
Kim, J. B., Kim, H. A., Moon, H. S., & Lee, H. S. (1997). Saturated-absorption spectroscopy of weak-field Zeeman splittings in rubidium: comment. Journal of the Optical Society of America B, 14(11), 2946. https://doi.org/10.1364/josab.14.002946
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