Hostname: page-component-cd9895bd7-p9bg8 Total loading time: 0 Render date: 2024-12-25T05:57:27.241Z Has data issue: false hasContentIssue false

A fundamental theory of high power thyratrons I: The electron temperature

Published online by Cambridge University Press:  09 March 2009

J. A. Kunc
Affiliation:
Department of Physics
S. Guha
Affiliation:
Departments of Electrical Engineering and Physics, University of Southern California, Los Angeles, California 90089-0484
M. A. Gundersen
Affiliation:
Departments of Electrical Engineering and Physics, University of Southern California, Los Angeles, California 90089-0484

Abstract

This paper is a part of a series intended to develop a detailed understanding of the physics of hydrogen thyratrons. This theory is needed, because the improvement of electrical switches such as the thyratron are now necessary for the development of high power lasers and other devices. In this paper, a detailed analysis of many different electron, atomic and molecular collisional and radiative processes is made, in order to determine the electron temperature in a thyratron plasma. Calculations of the rates for production of Balmer lines are made and the results are summarized in a way that can be used for in situ measurements.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1983

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abramowttz, M. & Stegun, I. A. 1970 Handbook of Mathematical Functions NBS-AMS-55.Google Scholar
Bates, D. R., Kingston, A. E. & McWhirter, R. W. P. 1962a Proc. Roy. Soc. A267, 297.Google Scholar
Bates, D. R., Kingston, A. E. & McWhirter, R. W. P. 1962b Proc. Roy. Soc. A270, 155.Google Scholar
Biaz, T. & Pham, D. W. 1972 J. Phys. B5, 198.Google Scholar
Drawin, H. W. 1961 Z. Phys. 164, 513.CrossRefGoogle Scholar
Drawin, H. W. 1962 Z. Phys. 168, 238.CrossRefGoogle Scholar
Drawin, H. W. 1969a Z. Phys. 225, 470.CrossRefGoogle Scholar
Drawin, H. W. 1969b Z. Phys. 225, 483.CrossRefGoogle Scholar
Drawin, H. W. 1969c Report EVR-CEA-FA-510.Google Scholar
Erwin, D. A. & Kunc, J. A. 1983 IEEE Trans. Plasma Sci, in press.Google Scholar
Gryzinski, M. 1965 Phys. Rev. A138, 322.CrossRefGoogle Scholar
Gudzenko, L. I. & Yakovlenko, S. I. 1973 Sov. Phys. Dokl. 17, 1172.Google Scholar
Gudzenko, L. I., Shelepin, L. A. & Yakovlenko, S. I. 1974 Sov. Phys. Usp. 17, 848.CrossRefGoogle Scholar
Hearn, A. G. 1966 Proc. Phys. Soc. 88, 171.CrossRefGoogle Scholar
Hiskes, J. R., Karo, A. M., Bacal, M., Brunetau, A. M. & Graham, W. G. 1982 J. Appl. Phys. 53, 3469.CrossRefGoogle Scholar
Hiskes, J. R. 1982 35th Int. Gaseous Electronic Conference,Dallas.Google Scholar
Holstein, T. 1951 Phys. Rev. 83, 1159.CrossRefGoogle Scholar
Johnson, C. E. 1974 Phys. Rev. A9, 576.CrossRefGoogle Scholar
Johnson, L. C. 1972 Astr. J. 174, 227.CrossRefGoogle Scholar
Kogan, V. I. 1967 Proc. of 8th Int. Conf. on Phenomenon in Ionized Gases,Vienna.Google Scholar
Kunc, J. A. & Zgorzelski, M. 1975 Atom. Data and Nuclear Data Tables 15, 543.CrossRefGoogle Scholar
Kunc, J. A. & Gundersen, M. A. 1982 IEEE, Trans., Plasma Science Special Issue 10, 315.CrossRefGoogle Scholar
Kunc, J. A. & Gundersen, M. A. 1983 J. Appl. Phys. 54, 2761.CrossRefGoogle Scholar
Kunc, J. A. 1983 J. Quant. Spectr. Radiat. Trans, in press.Google Scholar
Massey, H. 1976 Negative Ions, Cambridge Univ. Press.Google Scholar
McWhirter, R. W. P. & Hearn, A. G. 1963 Proc. Phys. Soc. 82, 641.CrossRefGoogle Scholar
McWhirter, R. W. P. 1965 Plasma Diagnostic Techniques, Academic Press, New York.Google Scholar
Moiseiwttsch, B. L. & Smith, S. J. 1968 Rev. Mod. Phys. 40, 238.CrossRefGoogle Scholar
Ochkur, V. I. & Petrunkin, A. M. 1963 Optics and Spectr. 14, 245.Google Scholar
Rudge, M. R. H. 1968 Rev. Mod. Phys. 40, 564.CrossRefGoogle Scholar
Seaton, M. J. 1962 Atomic and Molecular Processes, (ed. Bates, D. R.) Adademic Press, London.Google Scholar
Smith, I. W. & Wood, P. M. 1973 Mol. Phys. 25, 441.CrossRefGoogle Scholar
Suckewer, S. & Luszell, A. 1975 J. Quant. Spectr. Radiat. Trans. 16, 53.CrossRefGoogle Scholar
Wiese, W. L., Smith, M. W. & Glennon, B. M. 1966 NSRDS-NBS4.Google Scholar