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Numerical simulation of type III solar radio bursts on meter- and hectometer-waves

✍ Scribed by T. Takakura

Publisher
Springer
Year
1982
Tongue
English
Weight
662 KB
Volume
78
Category
Article
ISSN
0038-0938

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✦ Synopsis

Numerical simulation of type III bursts is made by the use of fully numerical scheme showing a general rule for obtaining a numerically stable difference scheme. Although the electron distribution function is one-dimensional in velocity space, the plasma waves is cylindrically symmetric two-dimensional in k-space.

It is confirmed that the previous simulation made by the use of semi-analytical method assuming the plateau distribution of electron distribution is qualitatively correct, but the number density of electron beam to have a typical type III burst was overestimated by a factor of about 3.

It is demonstrated that a tentative neglection of a term for the induced scattering of plasma waves into nonresonant k-range gives no remarkable effect on the energy loss of the electron beam, though the scattering is strong. The reason is that the scattering reduces the saturation level of plasma waves resulting in a reduction of the energy loss, while a part of the energy of electron beam is indirectly lost by the scattering.

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