Transverse mode solitons in a hot ultrarelativistic electron-positron plasma

Details Transverse mode solitons in a hot ultrarelativistic electron-positron plasma Transverse mode solitons in a hot ultrarelativistic electron-positron plasma

May 1993

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993phflb...5.1667m&link_type=abstract

Physics of Fluids B (ISSN 0899-8221), vol. 5, no. 5, p. 1667, 1668.

Physics

9

Electron-Positron Plasmas, Relativistic Plasmas, Solitary Waves, High Temperature Plasmas, Kinetic Equations, Maxwell Equation, Plasma Control, Schroedinger Equation

Scientific paper

A study by Mofiz and Mamun (1992) is extended to consider the nonlinear propagation of the transverse mode in a hot ultrarelativistic electron-positron plasma. It is found that in an ultrarelativistically hot electron-positron plasma, transverse modes, due to their nonlinear interaction with plasma, create intense solitons. For wavelength higher than the plasma Debye length these solitons become spiky in a hot and dense plasma. These solitons propagate with velocities less than the speed of light. Therefore, the nonlinear interaction with electrons and positrons, i.e., the nonlinear Landau damping, stops the solitons without changing its amplitude.

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