Authors: Benoît E. Prieur
While the Standard Model of physics is largely successful in explaining a wide variety of experimental results, it leaves some phenomena unexplained and falls short of being a complete theory of fundamental interactions. For example, it does not incorporate the full theory of general relativity, neither does it fully reconcile general relativity and quantum mechanics. In this context, here I present the fundamental particles of matter as geometrical forms of electromagnetic waves, whose size is directly linked to the wavelength. Thus, hadrons and leptons are considered as being composed of three and one intersecting waves, respectively. The particles’ spatiotemporal structures appear to explain their magnetic moments and spin. This model suggests that the weak force arises from electric and magnetic interactions between the substructures of neutron, the strong force from the close contact among the charges of nucleons, and the gravitational force from the curvature of space created by matter.
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