Highly efficient supersonic chemical oxygen — iodine laser with a chlorine flow rate of 10 mmol s-1

M V Zagidullin; V D Nikolaev; M I Svistun; N A Khvatov; N I Ufimtsev

doi:10.1070/QE1997v027n03ABEH000916

Quantum Electronics

LASERS

Highly efficient supersonic chemical oxygen — iodine laser with a chlorine flow rate of 10 mmol s^-1

M V Zagidullin¹, V D Nikolaev¹, M I Svistun¹, N A Khvatov¹ and N I Ufimtsev¹

©, 1997 Kvantovaya Elektronika and Turpion Ltd
Quantum Electronics, Volume 27, Number 3 Citation M V Zagidullin et al 1997 Quantum Electron. 27 195 DOI 10.1070/QE1997v027n03ABEH000916

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¹ Samara Branch of the P.N. Lebedev Physics Institute, Russian Academy of Sciences, Samara, Russian Federation

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Abstract

An experimental parametric investigation was made of a compact supersonic chemical oxygen — iodine laser. The output power of the laser was increased by displacing the point where iodine vapour was added to singlet oxygen from the subsonic to the transonic region of gas flow and by cooling of nitrogen. The output power was 200 W for a Mach number 1.5 in the cavity when the chlorine flow rate was 10 mmol s^-1. An increase of the flow rates of all the gases and of the pressure in the singlet-oxygen generator by a factor of 1.6 resulted, when the other conditions were kept constant, in a proportional increase in the laser output power. An estimate of the chemical efficiency was in good agreement with the experimental value of 22%.

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