A numerical energy conserving method for the DNLS equation

A new scheme for solving the Vlasov equation using a phase space grid is proposed. The algorithm is based on the conservation of the flux of particles, and the distribution function is reconstructed using various techniques that allow control of spurious oscillations or preservation of the positivit

This paper describes a numerical method for the solution of a system of plasma fluid equations. The fluid model is similar to those employed in the simulation of high-density, low-pressure plasmas used in semiconductor processing. The governing equations consist of a drift-diffusion model of the ele

T = pressure, atm. u = collision diameter, A (a = azimuthal angle between the axes of the two di-(p(r) = Stockmayer potential, Equation (6) f i ( l J ) \* [ T ~] = reduced collision integral for the Lennardfi(2,2)\* [ T N ] = reduced collision integral for the Lennard-O ( l J ) \* [ TN, S o ] = redu

## Abstract Recently, it is found that telegraph equation is more suitable than ordinary diffusion equation in modelling reaction diffusion for such branches of sciences. In this article, we propose a numerical scheme to solve the one‐dimensional hyperbolic telegraph equation using collocation poin