A. S. Bashkin, N. M. Gorshunov, Yu. A. Kunin, Yu. P. Neshchimenko, A. N. Oraevsky, N. N. Yuryshev, “Gasdynamic chemical laser utilizing $D-O_3-CO_2$ and $H-O_3-CO_2$ mixtures. I. Experimental investigation”, Kvantovaya Elektronika, 1980, Volume 7, Number 7,Pages 1422

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Gasdynamic chemical laser utilizing $D-O_3-CO_2$ and $H-O_3-CO_2$ mixtures. I. Experimental investigation

A. S. Bashkin, N. M. Gorshunov, Yu. A. Kunin, Yu. P. Neshchimenko, A. N. Oraevsky, N. N. Yuryshev

P. N. Lebedev Physical Institute, the USSR Academy of Sciences, Moscow

Abstract: Results are presented of an experimental investigation of a cw supersonic chemical laser utilizing $D-O_3-CO_2$ and $H-O_3-CO_2$mixtures. For a $D-O_3-CO_2$ mixture the highest small-signal gain was $2,65\pm0,13$ m${}^{-1}$ and the lasing power reached $960\pm50$ W. In this case, the specific lasing power and chemical efficiency of the laser were $60\pm4$ W$\cdot$sec/g and $18\pm1$%, respectively. For an $H-O_3-CO_2$ mixture under the same experimental conditions, the maximum gain of $2,45\pm0,13$ m${}^{-1}$ was achieved, which was only 8% lower than that for a $D-O_3-CO_2$ mixture. The downstream length of the inversion zone exceeded 20 cm. The mixing scale of the reagent streams was determined from the absorption of ultraviolet probe radiation by ozone.

UDC: 621.375.823.541.1

PACS: 42.55.Ks, 42.55.Dk

Received: 11.11.1979