Supersonic oxygen — iodine 1.4-kW laser with a 5 cm gain length and a nitrogen-diluted active medium

A compact chemical oxygen - iodine laser with a jet generator of singlet oxygen and a nitrogen-diluted active medium was developed. The maximum chemical efficiency equal to 24.1% was achieved for a chlorine flow rate of 39.2 mmol s{sup -1} , and the maximum output power equal to 1.4 kW was obtained...

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Veröffentlicht in:	Quantum electronics (Woodbury, N.Y.) N.Y.), 2000-02, Vol.30 (2), p.161-166
Hauptverfasser:	Zagidullin, M V, Nikolaev, V D, Svistun, M I, Khvatov, N A
Format:	Artikel
Sprache:	eng
Schlagworte:	CHEMICAL LASERS CHLORINE CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS EFFICIENCY ELECTROMAGNETIC RADIATION ELECTRONIC EQUIPMENT ELEMENTS FLOW RATE HALOGENS IODINE JETS LASER RADIATION LASERS NITROGEN NONMETALS OXYGEN RADIATIONS RESONATORS
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container_end_page	166
container_issue	2
container_start_page	161
container_title	Quantum electronics (Woodbury, N.Y.)
container_volume	30
creator	Zagidullin, M V Nikolaev, V D Svistun, M I Khvatov, N A
description	A compact chemical oxygen - iodine laser with a jet generator of singlet oxygen and a nitrogen-diluted active medium was developed. The maximum chemical efficiency equal to 24.1% was achieved for a chlorine flow rate of 39.2 mmol s{sup -1} , and the maximum output power equal to 1.4 kW was obtained for a chlorine flow rate of 75 mmol s{sup -1} . The following specific energy characteristics of laser radiation were obtained: output power of 5 kW per one litre of the reactor volume of the jet generator of singlet oxygen, paraxial intensity of 100 W per one square centimetre of the cross sectional area of the stream of the active medium in the resonator, and an output power per unit volume evacuation rate of 2.7 W (litre s{sup -1}){sup -1}. (lasers)
doi_str_mv	10.1070/QE2000v030n02ABEH001679
format	Article
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The maximum chemical efficiency equal to 24.1% was achieved for a chlorine flow rate of 39.2 mmol s{sup -1} , and the maximum output power equal to 1.4 kW was obtained for a chlorine flow rate of 75 mmol s{sup -1} . The following specific energy characteristics of laser radiation were obtained: output power of 5 kW per one litre of the reactor volume of the jet generator of singlet oxygen, paraxial intensity of 100 W per one square centimetre of the cross sectional area of the stream of the active medium in the resonator, and an output power per unit volume evacuation rate of 2.7 W (litre s{sup -1}){sup -1}. 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The maximum chemical efficiency equal to 24.1% was achieved for a chlorine flow rate of 39.2 mmol s{sup -1} , and the maximum output power equal to 1.4 kW was obtained for a chlorine flow rate of 75 mmol s{sup -1} . The following specific energy characteristics of laser radiation were obtained: output power of 5 kW per one litre of the reactor volume of the jet generator of singlet oxygen, paraxial intensity of 100 W per one square centimetre of the cross sectional area of the stream of the active medium in the resonator, and an output power per unit volume evacuation rate of 2.7 W (litre s{sup -1}){sup -1}. 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The maximum chemical efficiency equal to 24.1% was achieved for a chlorine flow rate of 39.2 mmol s{sup -1} , and the maximum output power equal to 1.4 kW was obtained for a chlorine flow rate of 75 mmol s{sup -1} . The following specific energy characteristics of laser radiation were obtained: output power of 5 kW per one litre of the reactor volume of the jet generator of singlet oxygen, paraxial intensity of 100 W per one square centimetre of the cross sectional area of the stream of the active medium in the resonator, and an output power per unit volume evacuation rate of 2.7 W (litre s{sup -1}){sup -1}. (lasers)</abstract><cop>United States</cop><pub>IOP Publishing</pub><doi>10.1070/QE2000v030n02ABEH001679</doi><tpages>6</tpages></addata></record>
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subjects	CHEMICAL LASERS CHLORINE CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS EFFICIENCY ELECTROMAGNETIC RADIATION ELECTRONIC EQUIPMENT ELEMENTS FLOW RATE HALOGENS IODINE JETS LASER RADIATION LASERS NITROGEN NONMETALS OXYGEN RADIATIONS RESONATORS
title	Supersonic oxygen — iodine 1.4-kW laser with a 5 cm gain length and a nitrogen-diluted active medium
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