On the possibility of developing quasi-cw high-power high-pressure laser on 4p-4s transition of ArI with electron beam - optical pumping: quenching of 4s (3P2) lower laser level

TL;DR

This paper proposes a novel electron beam-optical pumping method for high-pressure He-Ar lasers at 912.5 nm, involving creation of metastable states and optical pumping, with new measurements of collisional quenching rate constants.

Contribution

It introduces a new electron beam-optical procedure for quasi-cw high-pressure He-Ar lasers and measures key collisional quenching rate constants for argon metastable states.

Findings

Successful creation of metastable argon states using electron beam.

Measurement of collisional quenching rate constants for Ar* in high-pressure mixtures.

Potential for developing high-power quasi-cw argon lasers.

Abstract

A new electron beam-optical procedure is proposed for quasi-cw pumping of high-pressure large-volume He-Ar laser on 4p[1/2]1 - 4s[3/2]2 argon atom transition at the wavelength of 912.5 nm. It consists of creation and maintenance of a necessary density of 4s[3/2]2 metastable state in the gain medium by a fast electron beam and subsequent optically pumping of the upper laser level via the classical three-level scheme using a laser diode. Absorption probing is used to study collisional quenching of Ar* metastable in electron-beam-excited high-pressure He-Ar mixtures with a low content of argon. The rate constants for plasma-chemical reactions Ar*+He+Ar-Ar2*+He (3.6 +- 0.4)x10-33 cm6/s, Ar+2He-HeAr*+He (4.4 +- 0.9)x10-36 cm6/s and Ar*+He-Products+He (2.4 +- 0.3)x10-15 cm3/s are for the first time measured.