Accurate electron density and one-electron properties for the beryllium atom

Two-body properties of the ground state of beryllium atom in position and momentum spaces are obtained starting from a compact and accurate explicitly correlated wavefunction. The wavefunction is factorized into a correlation factor, depending on the interelectronic distance, and a multi configurati

The topological properties of the electron density and the properties of a n atom in a molecule are calculated by means of second-order Mgller-Plesset perturbation theory (MP2) and compared with the results of configuration interaction calculations (CI2) which include all single and double substitut

The average electron density in momentum space, viz. ( y ), where y(p) is the electron momentum density, is defined and shown to be experimentally measureable. The connection is obtained via the relation 8x'(y) =JB\*(s) d.r, where B(s) is the reciprocal form factor. The approximate relationships (p)

A procedure to represent Hartree-Fock electron densities in atoms [L. Femandez Pacios, J. Comp. Chem., 14,410 (1993)l defines p ( r > as a reduced expansion of exponential functions. These analytically modeled densities (AMDs) are used in this article to develop a simple computational procedure for

An orbital-generated local exchange potential, obtained as the work done in moving an electron in the electric field of its Fermi hole, is found to give Hartree-Fock quality results for the one-and two-electron excited states of Na and Be, respectively. The calculated total energies are found to pro