Special Features of Low-Pressure Discharge Initiated by Microwave Radiation With Stochastic Jumping Phase

We study the plasma discharge initiated by microwave radiation with stochastically jumping phase (MWRSJP) in a coaxial waveguide at the optimal mode of the beam-plasma generator. Present results continue the line of the previous research. In this paper, the conditions of a microwave discharge igniti...

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Veröffentlicht in:	IEEE transactions on plasma science 2013-09, Vol.41 (9), p.2458-2463
Hauptverfasser:	Karas, Vyacheslav Ignatevich, Artamoshkin, Anatoly Mikhaylovich, Alisov, Anatoly Fedorovich, Bolotov, Oleg Valerievich, Golota, Vladimir Ivanovich, Karas, Irina Vyacheslavovna, Yegorov, Alexey Mikhaylovich, Zagrebelny, Igor Anatolievich, Potapenko, Irina Fedorovna, Starostin, Andry Nikonovich
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Sprache:	eng
Schlagworte:	Collisionless electron heating discharge Discharges (electric) Electromagnetic heating Electrostatic discharges Generators Ion beams microwave Microwave oscillators microwave penetration Microwave theory and techniques Optical waveguides phase jump Plasma physics Plasmas Pressure radiation spectra stochastic Stochastic models
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creator	Karas, Vyacheslav Ignatevich Artamoshkin, Anatoly Mikhaylovich Alisov, Anatoly Fedorovich Bolotov, Oleg Valerievich Golota, Vladimir Ivanovich Karas, Irina Vyacheslavovna Yegorov, Alexey Mikhaylovich Zagrebelny, Igor Anatolievich Potapenko, Irina Fedorovna Starostin, Andry Nikonovich
description	We study the plasma discharge initiated by microwave radiation with stochastically jumping phase (MWRSJP) in a coaxial waveguide at the optimal mode of the beam-plasma generator. Present results continue the line of the previous research. In this paper, the conditions of a microwave discharge ignition, its stable maintenance in air by MWRSJP, and the pressure range at which required power is minimal are found. We also experimentally examine optical characteristics of the discharge plasma in a wide range of air pressure. In general, the research aims to develop a new type of sources of optical radiation.
doi_str_mv	10.1109/TPS.2013.2277892
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Present results continue the line of the previous research. In this paper, the conditions of a microwave discharge ignition, its stable maintenance in air by MWRSJP, and the pressure range at which required power is minimal are found. We also experimentally examine optical characteristics of the discharge plasma in a wide range of air pressure. 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Present results continue the line of the previous research. In this paper, the conditions of a microwave discharge ignition, its stable maintenance in air by MWRSJP, and the pressure range at which required power is minimal are found. We also experimentally examine optical characteristics of the discharge plasma in a wide range of air pressure. In general, the research aims to develop a new type of sources of optical radiation.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TPS.2013.2277892</doi><tpages>6</tpages></addata></record>
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subjects	Collisionless electron heating discharge Discharges (electric) Electromagnetic heating Electrostatic discharges Generators Ion beams microwave Microwave oscillators microwave penetration Microwave theory and techniques Optical waveguides phase jump Plasma physics Plasmas Pressure radiation spectra stochastic Stochastic models
title	Special Features of Low-Pressure Discharge Initiated by Microwave Radiation With Stochastic Jumping Phase
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