Piecewise travelling-wave basis functions for wires

We have solved the atomic Hartree᎐Fock equations by using the algebraic approach, expanding the single-particle radial wave function in terms of a Ž . modified Gaussian type orbitals GTOs basis. Several atomic properties such as Kato's cusp condition for the electron density or the correct asymptoti

## Abstract New three‐dimension orthogonal basis functions for finite element solution of the vectorial wave equation are presented. These functions, based on the Whitney's edge elements, maintain the same properties as those of conventional basis functions, naturally generating diagonal matrices a

## Abstract This article discusses on the solution of the regularized long wave (RLW) equation, which is introduced to describe the development of the undular bore, has been used for modeling in many branches of science and engineering. A numerical method is presented to solve the RLW equation. The

In this article, an algorithm able to deal at the same time with wire frame and surface patch models for the method of moments in time domain is presented. After a unified theory combining both models, attention is focused on stability dependence issues on the time basis function chosen and on other

## Abstract Localized bonding schemes and their weights have been obtained for the π‐electron system of nitrone by expanding complete active space self‐consistent field wave functions into a set of Slater determinants composed of orthogonal natural atomic orbitals (NAOs) of Weinhold and Landis (Val