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Generation and radiation of second harmonics by s-polarized electromagnetic waves incident on a narrow inhomogeneous plasma layer

Published online by Cambridge University Press:  13 March 2009

V. V. Dolgopolov
Affiliation:
Atomic Energy Authority, Cairo
N. M. El-Siragy
Affiliation:
Atomic Energy Authority, Cairo
Y. A. Sayed
Affiliation:
Atomic Energy Authority, Cairo

Abstract

We investigate radiation of waves at double the frequency from an arbitrary inhomogeneous, isotropic plasma layer, when 8-polarized electromagnetic waves are obliquely incident on it and their lengths are considerably greater than the width of the layer. We calculate the amplitudes of the radiated waves. We show that, in general, the second harmonics are radiated in the direction of propagation of both the reflected and the transmitted wave being at the basic frequency. At small plasma densities, the second harmonics are emitted practically only in the direction of propagation of the reflected wave at the basic frequency. For normal incidence, there is no wave radiation at double the frequency of the incident wave.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1974

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References

REFERENCES

Demchenko, V. V., Dologpolov, V. V. & Omelchenko, A. Ya. 1971 Izvestia vuzov. Radifizika, 14, 1321.Google Scholar
Dolgopolov, V. V. 1973 The Physical and Technical Institute of the Ukrainian Academy of Science Kharkov Reprint Kh FTJ 73–8.Google Scholar
Erokhin, N. S., Zakharov, V. E. & Moiseev, S. S. 1969 Zh. eksp. teor. Fiz. 56, 179.Google Scholar
Erokhin, N. S. & Moiseev, S. S. 1970 Zh. tekh. Fiz. 40, 1144.Google Scholar
Fidone, J., Granata, G. & Teichman, J. 1971 Phys. Fluids, 14, 737.CrossRefGoogle Scholar