DocumentCode
917050
Title
Computation of the electric and magnetic fields induced in a plasma created by ionization lasting a finite interval of time
Author
Baños, A., Jr. ; Mori, W.B. ; Dawson, J.M.
Author_Institution
Dept. of Phys. & Electr. Eng., California Univ., Los Angeles, CA, USA
Volume
21
Issue
1
fYear
1993
fDate
2/1/1993 12:00:00 AM
Firstpage
57
Lastpage
69
Abstract
S.C. Wilks et al. (1988) showed that when an infinite expanse of gas, carrying a linearly polarized electromagnetic wave, is instantly ionized, the initial wave is frequency upshifted. This phenomenon of frequency upconversion through flash ionization gives rise to steady-state transmitted and reflected electromagnetic waves and to a time-independent magnetic field. The case in which the final state of ionization is achieved not instantly but in a finite turn-on time, 0⩽t ⩽t 0, which is followed by the steady state, is studied. It is shown that the electric field is obtained from the one-dimensional Helmholtz equation, d 2F (t )/dt 2 +ω02g (t )F ( t )=0, if electrons are born at rest when they are created during ionization. As a result, the instantaneous frequency of the upshifted radiation is ω(t )=√g (t ). The electric field can be solved exactly for specific choices of g (t ). It is solved using WKB approximations for arbitrary g (t ). The magnetic field is then found by integrating Faraday´s law. It is found that the steady-state electric field amplitude depends on the steady-state value o f g (t ) but does not depend on the ionization time t 0. Conversely, the static magnetic field amplitude decreases with increasing turn-on time
Keywords
WKB calculations; electric fields; electromagnetic wave propagation in plasma; ionisation of gases; light propagation in plasma; magnetic fields; plasma production; plasma production and heating by laser beam; Faraday´s law; WKB approximations; electric field; flash ionization; frequency upconversion; linearly polarized electromagnetic wave; magnetic field; one-dimensional Helmholtz equation; reflected electromagnetic waves; transmitted EM waves; upshifted radiation; Electromagnetic scattering; Electromagnetic wave polarization; Frequency; Gas lasers; Ionization; Magnetic fields; Partial differential equations; Plasma sources; Plasma waves; Steady-state;
fLanguage
English
Journal_Title
Plasma Science, IEEE Transactions on
Publisher
ieee
ISSN
0093-3813
Type
jour
DOI
10.1109/27.221102
Filename
221102
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