Abstract
The simulation model (PIC method) of the Bernstein-Green-Kruskal wave (BGK wave) with the trapping region filled by the trapped electrons is described. The parameters of the BGK wave (phase velocity, amplitude, energy, density and velocity distribution) in homogeneous collisionless plasma with the fixed ions are shown to be constant at the time interval {approx} 100{sub oe}. 8 refs., 14 refs.
Citation Formats
Buchel`nikova, N S, and Lazeev, B N.
Bernstein-Green-Kruskal wave; Volna Bernshtejna-Grina-Kruskala.
Russian Federation: N. p.,
1993.
Web.
Buchel`nikova, N S, & Lazeev, B N.
Bernstein-Green-Kruskal wave; Volna Bernshtejna-Grina-Kruskala.
Russian Federation.
Buchel`nikova, N S, and Lazeev, B N.
1993.
"Bernstein-Green-Kruskal wave; Volna Bernshtejna-Grina-Kruskala."
Russian Federation.
@misc{etde_10112866,
title = {Bernstein-Green-Kruskal wave; Volna Bernshtejna-Grina-Kruskala}
author = {Buchel`nikova, N S, and Lazeev, B N}
abstractNote = {The simulation model (PIC method) of the Bernstein-Green-Kruskal wave (BGK wave) with the trapping region filled by the trapped electrons is described. The parameters of the BGK wave (phase velocity, amplitude, energy, density and velocity distribution) in homogeneous collisionless plasma with the fixed ions are shown to be constant at the time interval {approx} 100{sub oe}. 8 refs., 14 refs.}
place = {Russian Federation}
year = {1993}
month = {Dec}
}
title = {Bernstein-Green-Kruskal wave; Volna Bernshtejna-Grina-Kruskala}
author = {Buchel`nikova, N S, and Lazeev, B N}
abstractNote = {The simulation model (PIC method) of the Bernstein-Green-Kruskal wave (BGK wave) with the trapping region filled by the trapped electrons is described. The parameters of the BGK wave (phase velocity, amplitude, energy, density and velocity distribution) in homogeneous collisionless plasma with the fixed ions are shown to be constant at the time interval {approx} 100{sub oe}. 8 refs., 14 refs.}
place = {Russian Federation}
year = {1993}
month = {Dec}
}