Accurate variational calculation of upper and lower bounds of dispersion interaction constant of two hydrogen atoms

A variational procedure for calculating upper and lower bounds for the logarithm of the average energy cf excitation InZ in the theory of the stopping power of :Itoms and molecules is described. The upper and lower bounds for lnlof the hydrogen atom are calculated. '?he author is' greatly indebted

Potential energy curves far the ground state X ' Bgf and for the b "Et state of the hydrogen molecule have been cakulated for internuclear distances 6 4 R Q 12 au. The wavefunctions were represented by 60-term expansions in elliptic coordinates including the interelectronic distance. Improvement ove

Trigonometric basis sets are used in a Rayleigh-Ritz variational method for computing two-sided eigenvalue bounds of the Schrodinger equation in one dimension. The method is based on truncating the infinite interval and solving an eigenvalue problem which obeys the von Neumann and the Dirichlet boun

The method of the evaluation of the upper and lower bounds of the second-order perturbation of the energy is described. The calculation of upper and lower bounds for the second-order perturbation of the energy in l/Z expansions for two-electron atoms are given.