Abstract
The static interaction of the Møller-Rosenfeld theory is used to calculate approximately the binding energies of the nuclei H
2
, H
3
, He
3
and He
4
. The value of the meson mass and of the two other parameters available in the theory are determined from a comparison with the observed binding energies of the H
3
nucleus and of the singlet and triplet states of the deuteron. The meson mass so determined is between 210 and 220 electron masses which is in fair agreement with cosmic-ray measurements. The binding energy of He
3
calculated from the energy difference H
3
– He
3
is also found to be in fair agreement with the observed value. The theoretical binding energy of He
4
is less than half the observed value, and it is suggested that in this nucleus there exists an additional many-body interaction.
Reference24 articles.
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3. Bochner 1932 Vorlesungen iiber Fouriersche Integrate.Leipzig: Akad. Verlag.
4. The Binding Energy ofH3
5. The evaluation of certain integrals occurring in studies of molecular structure
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