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Calculation of the volt-ampere characteristics of a nonindependent volumetric electrical discharge

Calculation of the volt-ampere characteristics of a nonindependent volumetric electrical discharge 13. E. K. Chekalin and L. V. Chernykh, "Electrophysical properties of temperature boundary layers at electrodes in a flow of conducting gas," in: MHD and Electrophyslcal Character- istics of ConductlngzGas Flows [in Russian], Issue 8, Minenergo SSSR, Glavnilproekt, Moscow (1973). 14. E. K. Chekalin, L.V. Chernykh, M. A. Novgorodov, and N. V. Khandurov, "Determination of the electron concentration in a supersonic plasma flow by means of a wall electrostatic probe," in: Proceedings of the All-Unlon Symposium on Aerophysical Research Methods [in Russian], Izd. ITPM Sib. Otd. Akad. Nauk SSSR, Novosibirsk (1976). 15. E. K. Chekalin, M. A. Novgorodov, and N. V. Khandurov, "Effects of electron--Ion recombina- tion in the boundary layer on the readings of an electrostatic probe," Zh. Tekh. Fiz., 45, No. 7 (1975). CALCULATION OF THE VOLT--AMPERE CHARACTERISTICS OF A NONINDEPENDENT VOLUMETRIC ELECTRICAL DISCHARGE V. V. Aleksandrov and V. N. Diesperov UDC 537.5 An analysis of a nonlndependent volumetric electrical discharge in the phase plane makes it possible to describe the structure of this phenomenon in a very simple manner and construct the vol~--ampere characteristics over a broad range of parameters. 1. A volumetric electrical discharge in a dense gas induced by hard ultraviolet rayss x rays, http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Applied Mechanics and Technical Physics Springer Journals

Calculation of the volt-ampere characteristics of a nonindependent volumetric electrical discharge

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Publisher
Springer Journals
Copyright
Copyright
Subject
Physics; Classical Mechanics; Fluid- and Aerodynamics; Classical and Continuum Physics; Applications of Mathematics; Mathematical Modeling and Industrial Mathematics; Mechanical Engineering
ISSN
0021-8944
eISSN
1573-8620
DOI
10.1007/BF00911568
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Abstract

13. E. K. Chekalin and L. V. Chernykh, "Electrophysical properties of temperature boundary layers at electrodes in a flow of conducting gas," in: MHD and Electrophyslcal Character- istics of ConductlngzGas Flows [in Russian], Issue 8, Minenergo SSSR, Glavnilproekt, Moscow (1973). 14. E. K. Chekalin, L.V. Chernykh, M. A. Novgorodov, and N. V. Khandurov, "Determination of the electron concentration in a supersonic plasma flow by means of a wall electrostatic probe," in: Proceedings of the All-Unlon Symposium on Aerophysical Research Methods [in Russian], Izd. ITPM Sib. Otd. Akad. Nauk SSSR, Novosibirsk (1976). 15. E. K. Chekalin, M. A. Novgorodov, and N. V. Khandurov, "Effects of electron--Ion recombina- tion in the boundary layer on the readings of an electrostatic probe," Zh. Tekh. Fiz., 45, No. 7 (1975). CALCULATION OF THE VOLT--AMPERE CHARACTERISTICS OF A NONINDEPENDENT VOLUMETRIC ELECTRICAL DISCHARGE V. V. Aleksandrov and V. N. Diesperov UDC 537.5 An analysis of a nonlndependent volumetric electrical discharge in the phase plane makes it possible to describe the structure of this phenomenon in a very simple manner and construct the vol~--ampere characteristics over a broad range of parameters. 1. A volumetric electrical discharge in a dense gas induced by hard ultraviolet rayss x rays,

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Journal of Applied Mechanics and Technical PhysicsSpringer Journals

Published: Dec 15, 2004

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