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Propagation and Group Velocity in a Warm Magnetoplasma
Author(s) -
Aubry M. P.,
Bitoun J.,
Graff Ph.
Publication year - 1970
Publication title -
radio science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.371
H-Index - 84
eISSN - 1944-799X
pISSN - 0048-6604
DOI - 10.1029/rs005i003p00635
Subject(s) - group velocity , physics , adiabatic process , magnetosphere , computational physics , ionosphere , adiabatic invariant , resonance (particle physics) , maxima and minima , magnetic field , wave propagation , classical mechanics , phase velocity , plasma , quantum electrodynamics , atomic physics , geophysics , quantum mechanics , mathematical analysis , mathematics
The full adiabatic theory is used to describe wave propagation in a warm magnetoplasma for frequencies around the plasma frequency and the upper hybrid resonance frequency. By comparison with the microscopic theory for directions perpendicular and parallel to the static magnetic field, we can well define the range of validity of the full adiabatic theory, which can then be used for computation of the group velocity. The variation of this group velocity as a function of frequency for several directions of propagation is shown for models corresponding to the ionosphere and the far magnetosphere. Three factors deserve attention: (1) the upper hybrid resonance and its neighborhood can be rigorously studied for far magnetospheric conditions by using the full adiabatic theory; (2) the computed modes present a mixed electrostatic‐electromagnetic character; (3) The minima in group velocities for pseudoresonance frequencies progressively fill up as the temperature increases.