Study of nonlinear wave processes in plasmas using the formalism of a special Lorntz transformation for a space-independent fram

Study of nonlinear wave processes in plasmas using the formalism of a special Lorntz transformation for a space-independent fram

A study is made of nonlinear waves in plasmas using the formalism of a special Lorentz transformation for a space-independent frame, S′. This special transformation is used to transform the space-time dependent equations in a cold, relativistic, magnetized plasma to the S′ frame. Then the transforme...

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Main Authors: S. N. Paul, B. Chakraborty, L. Debnath
Format: Article
Language:English
Published: Hindawi Limited 1985-01-01
Series:International Journal of Mathematics and Mathematical Sciences
Subjects:
nonlinear waves in plasmas
relativistic plasma
Lorentz transformation.
Online Access:http://dx.doi.org/10.1155/S0161171285000655
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spelling doaj-56cf585ab67c48c18456dd8066b840812020-11-24T23:49:52ZengHindawi LimitedInternational Journal of Mathematics and Mathematical Sciences0161-17121687-04251985-01-018359961410.1155/S0161171285000655Study of nonlinear wave processes in plasmas using the formalism of a special Lorntz transformation for a space-independent framS. N. Paul0B. Chakraborty1L. Debnath2Department of Mathematics, Jadavpur University, Calcutta 700032, IndiaDepartment of Mathematics, Jadavpur University, Calcutta 700032, IndiaDepartment of Mathematics, University of Central Florida, Orlando, Florida 32816, USAA study is made of nonlinear waves in plasmas using the formalism of a special Lorentz transformation for a space-independent frame, S′. This special transformation is used to transform the space-time dependent equations in a cold, relativistic, magnetized plasma to the S′ frame. Then the transformed equations are employed to derive the expressions for the Lagrangian and the Hamiltonian in the S′ frame. The Lagrengian and the Hamiltonian for a strong circularly polarized laser beam have also been obtained in the S′ frame. The exact form of the nonlinear dispersion relation is derived for circularly polarized waves. Then the results for the frequency and the wave number shifts of these waves in a cold, magnetized relativistic plasma are obtained with some Discussion on the nature of the frequency shifts. Finally, numerical results are presented for the radiation of Nd-glass laser in dense plasmas.http://dx.doi.org/10.1155/S0161171285000655nonlinear waves in plasmasrelativistic plasmaLorentz transformation.
collection DOAJ
language English
format Article
sources DOAJ
author S. N. Paul
B. Chakraborty
L. Debnath
spellingShingle S. N. Paul
B. Chakraborty
L. Debnath
Study of nonlinear wave processes in plasmas using the formalism of a special Lorntz transformation for a space-independent fram
International Journal of Mathematics and Mathematical Sciences
nonlinear waves in plasmas
relativistic plasma
Lorentz transformation.
author_facet S. N. Paul
B. Chakraborty
L. Debnath
author_sort S. N. Paul
title Study of nonlinear wave processes in plasmas using the formalism of a special Lorntz transformation for a space-independent fram
title_short Study of nonlinear wave processes in plasmas using the formalism of a special Lorntz transformation for a space-independent fram
title_full Study of nonlinear wave processes in plasmas using the formalism of a special Lorntz transformation for a space-independent fram
title_fullStr Study of nonlinear wave processes in plasmas using the formalism of a special Lorntz transformation for a space-independent fram
title_full_unstemmed Study of nonlinear wave processes in plasmas using the formalism of a special Lorntz transformation for a space-independent fram
title_sort study of nonlinear wave processes in plasmas using the formalism of a special lorntz transformation for a space-independent fram
publisher Hindawi Limited
series International Journal of Mathematics and Mathematical Sciences
issn 0161-1712
1687-0425
publishDate 1985-01-01
description A study is made of nonlinear waves in plasmas using the formalism of a special Lorentz transformation for a space-independent frame, S′. This special transformation is used to transform the space-time dependent equations in a cold, relativistic, magnetized plasma to the S′ frame. Then the transformed equations are employed to derive the expressions for the Lagrangian and the Hamiltonian in the S′ frame. The Lagrengian and the Hamiltonian for a strong circularly polarized laser beam have also been obtained in the S′ frame. The exact form of the nonlinear dispersion relation is derived for circularly polarized waves. Then the results for the frequency and the wave number shifts of these waves in a cold, magnetized relativistic plasma are obtained with some Discussion on the nature of the frequency shifts. Finally, numerical results are presented for the radiation of Nd-glass laser in dense plasmas.
topic nonlinear waves in plasmas
relativistic plasma
Lorentz transformation.
url http://dx.doi.org/10.1155/S0161171285000655
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AT ldebnath studyofnonlinearwaveprocessesinplasmasusingtheformalismofaspeciallorntztransformationforaspaceindependentfram
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