Classical electrodynamical models are constructed in which both vector bosons and fermions are ge... more Classical electrodynamical models are constructed in which both vector bosons and fermions are generated by massless, topologically singular scalar fields. The Dirac equation supplies Maxwell equations and the constraint necessary to obtain from them charged fermions with stringlike structure.
Classical electrodynamical models are constructed in which both vector bosons and fermions are ge... more Classical electrodynamical models are constructed in which both vector bosons and fermions are generated by massless, topologically singular scalar fields. The Dirac equation supplies Maxwell equations and the constraint necessary to obtain from them charged fermions with stringlike structure.
In the study of covariant wave equations, linear gravity manifests itself through the metric devi... more In the study of covariant wave equations, linear gravity manifests itself through the metric deviation γµν and a two-point vector potential K λ itself constructed from γµν and its derivatives. The simultaneous presence of the two gravitational potentials is non contradictory. Particles also assume the character of quasiparticles and K λ carries information about the matter with which it interacts. We consider the influence of K λ on the dispersion relations of the particles involved, the particles' motion, quantum tunneling through a horizon, radiation, energy-momentum dissipation and flux quantization.
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Papers by Giorgio Papini