Coupled Langmuir and ion-acoustic waves in two-electron temperature plasmas

The nonlinear propagation of coupled Langmuir and ion-acoustic waves in a two-electron temperature plasma is shown to be governed by a generalized Schrodinger-Boussinesq system, which for uni-directional propagation reduces to the coupled Schrodinger-Korteweg-de Vries (K-dV) system. For stationary propagation of the coupled waves, the Schrodinger-Boussinesq (or K-dV) system leads to a generic Hamiltonian which is shown to be integrable in the sub- as well as supersonic regimes of the Mach number. Different classes of exact analytical solutions of the stationary Schrodinger-Boussinesq system are explicitly obtained. Two-electron temperature plasmas are shown to admit a new class of coupled Langmuir-ion-acoustic solitons which propagate with supersonic speeds but are accompanied by density rarefactions. We also derive exact governing equations valid for large amplitude waves, and obtain their approximate solutions. Existence conditions for large amplitude localized solutions in the quasi-neutral limit an derived. A comparison between different types of governing equations and their analytical solutions is carried out. (C) 1997 American Institute of Physics.