Exact solution of the restricted three-body Santilli-Shillady model of H2 molecule
Abstract
In this paper, we study the exact solution of the restricted isochemical model of H2 molecule with fixed nuclei recently proposed by Santilli and Shillady in which the two electrons are assumed to be bonded/correlated into a quasiparticle called the isoelectronium. Under the conditions that: 1) the isoelectronium is stable; 2) the effective size of the isoelectronium is ignorable, in comparison to internuclear distance; and 3) the two nuclei are at rest, the Santilli-Shillady model of the H2 molecule is reduced to a restricted three-body system essentially similar to a neutral version of the H2+ ion, which, as such, admits exact solution. Our main result is that the restricted three-body Santilli-Shillady approach to H2 is capable to fit the experimental binding energy, at the isoelectronium mass parameter M=0.308381me, although under optimal internuclear distance about 19.6% bigger than the conventional experimental value, indicating an approximate character of the three-body model.
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