A single-center expansion for H2+ wavefunctions

The two-center spherical limits for the energies, (a?>, (r2), equilibrium distances and vibration frequencies are obtained for the ground state of H$. It is found, inter alia, that a linear combination oE two floating spherical functions approximates the exact ground state energy to within 0.7%.

It is shown thnt the superposition of wavefunctions centered on the nuclei and floating wavefunctions represents the distribution of the electronic chnrge more accuratel\-than anv of these two functions sepnrs.:.l~. The mean-squnre values of electronic coordinates are calculated.

The ground state exxxgies of Hg were calculated for the internuclear separations R = 2.0, 1.8, 2.0, 2.2, 3.0, 4.0 and 5.0 au. The integral transform gaussian functions k&r) were used as atomic orbitals. The results surpass corresponding results obtained with scaled 1s functions. The equilibrium inte

The two-parameter Inui wavefunction for the ground and excited states of Hz is improved variationally through an expansion in powers of confocal spheroidal coordinates including the interelectronic distance. A single 69-term expansion gives, for both states, fairly accurate interaction energies in t

A recent article by Jackson, McEachran and Cohen on the James wavefunction for the ground state of Hz completely duplicates previous efforts by the present authors.