P. A. Bokhan, Dm. E. Zakrevskii, M. A. Lavrukhin, N. A. Lyabin, A. D. Chursin, “Excitation and relaxation of metastable atomic states in an active medium of a repetitively pulsed copper vapour laser”, Kvantovaya Elektronika, 2016, Volume 46, Number 2,Pages <nobr>100

This article is cited in 8 papers

Lasers

Excitation and relaxation of metastable atomic states in an active medium of a repetitively pulsed copper vapour laser

P. A. Bokhan^a, Dm. E. Zakrevskii^a, M. A. Lavrukhin^a, N. A. Lyabin^b, A. D. Chursin^b

^a Rzhanov Institute of Semiconductor Physics, Siberian Branch of Russian Academy of Sciences, Novosibirsk
^b State Scientific-Production Enterprise "Istok", Fryazino, Moskovskaya obl.

Abstract: The influence of a pre-pulse population of copper atom metastable states and their sub-population at a current pulse edge on the copper vapour laser pulse energy is studied under optimal temperature conditions. Experiments have been performed with active elements of a commercial laser having an internal diameter of a discharge channel of 14 and 20 mm. It is found that at a pulse repetition frequency of 12–14 kHz, corresponding to a maximal output power, the reduction of the energy due to a residual population of metastable states is by an order of magnitude less than due to their sub-population at a current pulse edge. The modelling based on the experimental results obtained has shown that in the case of an active element with an internal diameter of 14 mm, a decrease in the pulse leading edge from ∼25 ns to 0.6 ns does not reduce the laser pulse energy up to the repetition frequency of ∼50 kHz at an average output power of 70 W m^-1 and efficiency of ∼11%.

Keywords: copper vapour laser, lasing, lasing efficiency, pre-pulse electron concentration, pre-pulse concentration of metastable levels.

Received: 30.12.2014
Revised: 17.02.2015