Ultra-High-Resolution Fluorescence Spectroscopy at Excitation of Atoms by Pulsed Radiation in Thin Gas Cells

The method of sub-Doppler fluorescence spectroscopy is proposed, which is based on the features of the narrowing with time of the velocity distribution of optically excited atoms (molecules) of a rarefied gas medium in a thin cell after exposure to a sufficiently short light pulse. Changes in the established sub-Doppler resonances with time as well as the essential dependence of these resonances on dimensions of the gas cell are analyzed.

1. W. Demtroder. Laser Spectroscopy: Basic Concepts and Instrumentation, Berlin, Springer (2003).

2. A. Ch. Izmailov. Azerb. J. Phys., Fizika, Sec. En, 17, N 1 (2011) 3—28, physics.gov.az/index1.html

3. А. С. Гасанова, Ч. О. Каджар, А. Ч. Измайлов. Журн. прикл. спектр., 88, № 2 (2021) 249—254. [A. S. Gasanova, Ch. O. Qajar, A. Ch. Izmailov. J. Appl. Spectr., 88, N 2 (2021) 311—316.]

4. T. Peyrot, Y. R. P. Sortais, J.-J. Greffet, A. Browaeys, A. Sargsyan, J. Keaveney, I. G. Hughes, C. S. Adams. Phys. Rev. Lett., 122, N 11 (2019) 113401.