A. Z. Devdariani, A. L. Zagrebin, N. A. Kryukov, M. G. Lednev, N. A. Timofeev, “Influence of the density of buffer gas atoms on the shape of the HgXe($A^{3}0^{+}$) $\to$ HgXe($X^{1}0^{+}$) excimer band”, Optics and Spectroscopy, 2019, Volume 126, Issue 5,Pages 535

This article is cited in 2 papers

Spectroscopy and physics of atoms and molecules

Influence of the density of buffer gas atoms on the shape of the HgXe($A^{3}0^{+}$) $\to$ HgXe($X^{1}0^{+}$) excimer band

A. Z. Devdariani^ab, A. L. Zagrebin^c, N. A. Kryukov^a, M. G. Lednev^c, N. A. Timofeev^a

^a Saint Petersburg State University
^b Herzen State Pedagogical University of Russia, St. Petersburg
^c Baltic State Technical University, St. Petersburg

Abstract: The reasons for the discrepancies between the experimental data on the shape of long-wavelength continua near the 6$^{3}P_{1}\to 6{}^{1}S_{0}$ resonance line of a mercury atom in a xenon atmosphere obtained by different authors are analyzed. Calculations of spectral profiles for limiting cases of high and low densities of buffer gas atoms lead to the conclusion that the discrepancies are mainly due to the dependence of the rates of three-particle recombination and relaxation processes on the xenon density. Different types of a non-equilibrium or almost equilibrium (at high xenon concentrations) population of rovibrational states of a HgXe($A^{3}0^{+}$) excimer molecule are formed at different rates of these processes, which affects emission spectral profiles.

Received: 24.12.2018
Revised: 24.12.2018
Accepted: 09.01.2019

DOI: 10.21883/OS.2019.05.47648.369-18