The Accuracy of the Pseudopotential Approximation within Density-Functional Theory

We have developed procedures for determining the potential, electron density, and current at a planar metal surface with an applied static field in vacuum. These calculations are made using density-functional theory within the local density Ž . approximation LDA for the Kohn᎐Sham exchange and correl

A procedure for the calculation of molecular properties in the full quantum mechanical treatment is presented. We formulate the non-Born᎐Oppenheimer density functional theory and propose its numerical scheme. We numerically calculate Ž . the energy, particle densities, interparticle distance, and hy

We have proposed a numerical scheme for the non᎐Born-Oppenheimer density functional calculation based upon the Green function techniques within the GW approximation for evaluating molecular properties in the full quantum mechanical treatment. We numerically calculate the physical properties of indiv

On the basis of the adiabatic connection formula we propose several approximations for the total correlation energy functional, which, in the limit of two separated neutral subsystems, correctly reproduce the van der Waals R y6 behavior. We have calculated the corresponding van der Waals coefficient

The application of density functional theory to complex systems requires simplifications. We describe our methodology, which uses the Harris functional, and its self-consistent generalization to ionic systems as well as its extension to hydrogen-bonded systems. We give brief examples of the applicat