A Direct Newton Solver for the Two-Dimensional Tokamak Edge Plasma Fluid Equations

This paper presents how the equations of magnetohydrodynamics (MHD) in primitive form should be written in conservative form with the inclusion of a divergence source along with a divergence wave and how a physically correct sonic ®x can be embedded directly in the ¯uxes. The numerical scheme was ap

In a recent study we showed that the two-fluid (TF) formulation can be used in the direct numerical simulation (DNS) of bubble-(or particle-) laden decaying isotropic turbulence with considerable saving in CPU-time and memory as compared to the trajectory approach employed by many researchers. In th

This work presents a novel boundary integral method to treat the two-dimensional potential ¯ow due to a moving body with the Lyapunov surface. The singular integral equations are derived in singularity-free form by applying the Gauss ¯ux theorem and the property of the equipotential body. The modi®e

The variation of megagauss magnetic field in two dimensions for a cylindrical target plasma produced by lasers irradiation on the surface of a cylindrical wire has been solved analytically making use of Hankel and Fourier transforms. The results have been compared with the euperiments of RAVEN et al