Numerical simulation of the nonlinear convective and oscillating instabilities in a beam plasma system

Abstract: Plasma simulation models have been developed which replicate the fundamental features of the convective and oscillating instability in the nonlinear weak beam regime. The oscillating instability is characterized in this regime by a randomly fluctuating electric field which is caused by the presence of a fresh, strong beam in a region of space in which the electric field is large. Nonlinear behavior of the background plasma need not be present during the production of the oscillating instability. The convective… Show more

“…In order to compare the measured growth rate with the theoretical growth rate we assume an infinite cold P. ANDRZEJEWSKI and J. VOM SCHErDr plasma with vc g u p but allow for a beam temperature. This leads to the dispersion relation (BOHMER et al, 1971)…”

Determination of electric field strength in a beam-plasma experiment

“…In order to compare the measured growth rate with the theoretical growth rate we assume an infinite cold P. ANDRZEJEWSKI and J. VOM SCHErDr plasma with vc g u p but allow for a beam temperature. This leads to the dispersion relation (BOHMER et al, 1971)…”

Determination of electric field strength in a beam-plasma experiment

Numerical Study of the Instability in a Maxwellian Beam‐Plasma System II. Many Wave Regime

Beam-plasma discharge and the boundary effects