É. V. Anufriev, V. P. Biryulin, A. G. Gerasimchuk, S. T. Kornilov, V. A. Ovechkin, I. V. Ostreĭkovskiĭ, E. D. Protsenko, “High-frequency CO<sub>2</sub> waveguide with optothermal and optogalvanic stabilization of the radiation frequency and power”, Kvantovaya Elektronika, 1988, Volume 15, Number 8,Pages <nobr>1664

This article is cited in 1 paper

Components of laser systems and stability problems

High-frequency CO₂ waveguide with optothermal and optogalvanic stabilization of the radiation frequency and power

É. V. Anufriev, V. P. Biryulin, A. G. Gerasimchuk, S. T. Kornilov, V. A. Ovechkin, I. V. Ostreĭkovskiĭ, E. D. Protsenko

Abstract: Optothermal and optogalvanic stabilization of a CO₂ waveguide laser with selective and nonselective resonators and with hf excitation of the active medium was investigated. The optothermal method ensured stability of the average signal frequency amounting to 3X10^–10τ^–1/2, whereas the stability achieved by the optogalvanic method was 1.5X10^–9τ^–1/2 for averaging times of 0.01≤τ≤10 s. The optogalvanic method ensured that the power of a laser with resonators of different types was stable to within 0.2%.

UDC: 621.375.826.038.823

PACS: 42.55.Lt, 42.60.Lh, 42.60.Da, 42.60.Jf

Received: 23.04.1987