Investigation of the Rotatory Plasma Flows Based on the Two-dimensional One-component MHD-model
Computations of axisymmetric plasma flows in coaxial accelerator with longitudinal magnetic field are considered. The investigations are carried out within the framework of two-dimensional one-component MHD-model in case of three-component magnetic field. The steady-state flows are calculated by the relaxation method for time-dependent MHD-equations. The numerical and analytical solutions are compared with reference to steady-state transonic two-dimensional plasma flows in accelerator channels. The features of the plasma-dynamic processes are exposed. It is found that the current layers are appeared in plasma flows in case of respective large longitudinal magnetic field.
Mathematical modelling in actual problems of science and technics