Binding Energies of the Alpha Particle and the A=3 Isobars from a Theoretical Geometric Model

Details Binding Energies of the Alpha Particle and the A=3 Isobars from a Theoretical Geometric Model Binding Energies of the Alpha Particle and the A=3 Isobars from a Theoretical Geometric Model

2008-05-03

arxiv.org/abs/0805.0363v1

Physics

General Physics

4 pages

Scientific paper

We assume a triple geometric structure for the electromagnetic nuclear interaction. This nuclear electromagnetism is used to calculate the binding energies of the alpha particle and the A=3 isobar nuclides. The approximation for the resultant wave equation which lead to the deuteron binding energy from the modified Mathieu equation for the radial eigenvalue equation also establishes proton-electron-proton magnetic bonds in these nuclides and determines their binding energies. Completely theoretical calculations give 28.5 Mev., 7.64 Mev. and 8.42 Mev. for the binding energies of the alpha particle, the helium 3 isotope and tritium respectively. These values admit correction factors due to the approximations made.

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