The Van der Waals interaction of the hydrogen molecule - an exact local energy density functional

Abstract

We verify that the van der Waals interaction and hence all dispersion interactions for the hydrogen molecule given by: W"= -A/R6-B/R8-C/R10- ..., in which R is the internuclear separation, are exactly soluble. The constants A=6.4990267..., B=124.3990835 ... and C=1135.2140398... (in Hartree units) first obtained approximately by Pauling and Beach (PB) [1] using a linear variational method, can be shown to be obtainable to any desired accuracy via our exact solution. In addition we shall show that a local energy density functional can be obtained, whose variational solution rederives the exact solution for this problem. This demonstrates explicitly that a static local density functional theory exists for this system. We conclude with remarks about generalising the method to other hydrogenic systems and also to helium.

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