An Eulerian Code for the Study of the Drift-Kinetic Vlasov Equation

In order to handle one-dimensional spatial problems in plasmas with very high frequency electromagnetic waves \(\left(\omega \gg \omega_{p}\right)\), the 1 \(1 / 20\) Eulerian Vlasov code has been modified to interface with the ponderomotive force associated with the complex envelopes of the high fr

A number of transient and steady-state finite element formulations of the semiconductor drift-diffusion equations are studied and compared with respect to their accuracy and efficiency on a simple test structure (the Mock diode). A new formulation, with a consistent interpolation function used to re

We present a new simulation code for electrostatic waves in one dimension which uses the Vlasov equation to integrate the distribution function and Ampère's equation to integrate the electric field forward in time. Previous Vlasov codes used the Vlasov and Poisson equations. Using Ampère's equation

The two-point correlation function is reduced to expansion in terms of the two-time correlation function with improved accuracy. The, ideas reported extends the applicability area for calculations typical to the weak plasma turbulence theory on the "strong plasma turbulence". Some implications of th

The adsorption kinetics of C 14 E 8 at the air-water interface was investigated. A new approach to the determination of the adsorption isotherm and the evaluation of model parameters is proposed in this work. Besides the equilibrium surface tension γ (C), a second set of equilibrium data [equation o

The curing reactions of an epoxy system consisting of a diglycidyl ether of bisphenol A (BADGE n ϭ 0) and 1,2-diamine cyclohexane (DCH) were studied to determine a time-temperature-transformation (TTT) isothermal cure diagram for this system. Differential scanning calorimetry (DSC), dynamic mechanic