Electrostatic drift vortices in a hot rotating strongly magnetized electron-positron pulsar plasma

Details Electrostatic drift vortices in a hot rotating strongly magnetized electron-positron pulsar plasma Electrostatic drift vortices in a hot rotating strongly magnetized electron-positron pulsar plasma

Jul 1991

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1991edvh.book.....m&link_type=abstract

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Physics

Collisionless Plasmas, Electron-Positron Plasmas, Plasma Drift, Pulsars, Rotating Plasmas, Stellar Magnetic Fields, Electrons, High Temperature Plasmas, Plasmas (Physics), Positrons, Turbulence, Vortices

Scientific paper

Electrostatic drift wave in a hot rotating and strongly magnetized electron-positron pulsar plasma is considered. Using relativistic two fluid equations a pair of coupled nonlinear equations is derived. It is shown that the wave can propagate in the form of two-dimensional dipolar vortices at ultrarelativistic temperature (T much greater than mc2) of the plasma. The latter may affect the energy transport in the hot plasma, which can lead to a new turbulent state in the pulsar magnetosphere.

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