Artículos de revistas
Effect of a large-amplitude circularly polarized wave on linear beam-plasma electromagnetic instabilities
Fecha
2003Registro en:
Journal of Geophysical Research: Space Physics, Volumen 108, Issue A12, 2003
21699402
10.1029/2003JA010144
Autor
Gomberoff, L.
Hoyos, J.
Brinca, A. L.
Institución
Resumen
In a previous paper, sufficiently large-amplitude and left-handed ‘‘pump waves’’
propagating parallel to the background magnetic field were shown to stabilize a
moderately dense beam in a proton plasma against the generation of waves drawing their
energy from the differential streaming motion of the beam [Gomberoff, 2003]. We now
examine the general case of both left-hand and right-hand pump waves and their effects on
beam instability as a function of pump wave amplitude and frequency, beam speed, and
plasma component temperatures. We find that the left-hand pump wave always gives
beam stability above a threshold amplitude. Larger threshold trend with increasing beam
speed and lower ones with increasing temperature. It is also shown that they can stabilize
left-hand polarized instabilities in the case of large drift velocities. The right-hand pump
similarly suppresses beam instabilities when its pump frequency is below the linearly
unstable range of frequencies. However, when its pump frequency is within the range of
instability, that part of the range below the pump frequency is stabilized beyond a
threshold amplitude, but the part above becomes even more unstable in the presence of a
right-hand pump.