Nonlinear Theory of the Plasma Wave Excitation in a Bounded Beam-Plasma System

The nonlinear equations governing relativistic electron beam-surface wave dynamics in dissipative P-S-plasma are derived. The influence of P-plasma on time saturation, amplitude of the wave at saturation and damping factor is analyzed. The obtained results are discussed from the physical point of vi

A system of nonlinear equations derived in a previous paper which describes the evolution of the beam-plasma instability in strong diesipative plasmas is solved numerically. It is shown that there are three characteristic solutions of the system of equations: the resonant dissipative instability, th

A system of nonlinear equations derived in a previous paper which describes the erolution of nonresonant waves in beam-plasma systems is solved numerically. It is given a physical interpretation of essential features of the nonresonant beom-plasma instability. The significant influence of higher har

## Abstract We study the role of nonlinear effects in a classical one‐dimensional model of a conducting electron–ion system. In particular we investigate the excitations of strongly nonlinear deformed phonons (cnoidal waves, solitons) on electric currents. We show that in a nonlinear lattice a new

## Abstract Interaction of three waves in a beam‐plasma system in a circular cylindrical waveguide is studied. The dispersion relation and the axial growth rate have been obtained.