The effects of saturation and velocity selective population in two-step 6S1/2 -> 6P3/2 -> 6D5/2 laser excitation in cesium (CROSBI ID 125601)
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Podaci o odgovornosti
Horvatić, Vlasta ; Correll, Tiffany L. ; Omenetto, Nicolo ; Vadla, Čedomil ; Winefordner, James D.
engleski
The effects of saturation and velocity selective population in two-step 6S1/2 -> 6P3/2 -> 6D5/2 laser excitation in cesium
Excited states population distributions created by two-step 6S1/2 → 6P3/2 → 6D5/2 laser excitation in room temperature cesium vapor were quantitatively analyzed applying absorption and saturation spectroscopy. A simple method for the determination of the excited state population in a single excitation step that is based on the measurements of the saturated and unsaturated absorption coefficients was proposed and tested. It was shown that only ~ 2% of the ground state population could be transferred to the first excited state by pumping the Doppler broadened line with a single-mode narrow-line laser. With complete saturation of the second excitation step, the population amounting to only ~ 1% of the ground state can be eventually created in the 6D5/2 state. The fluorescence intensity emerging at 7P3/2 → 6S1/2 transition, subsequent to the radiative decay of 6D5/2 population to the 7P3/2 state, was used to assess the efficiency of the population transfer in the chosen two-step excitation scheme. The limitations imposed on the sensitivity of such resonance fluorescence detector caused by velocity-selective excitation in the first excitation step were pointed out and the way to overcome this obstacle is proposed.
saturation; velocity selectivity; two-step excitation; Doppler-free spectra; cesium
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