10 September 2015 Electrons are spin 1/2 charged photons generating the de Broglie wavelength
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Abstract
The Dirac equation electron is modeled as a helically circulating charged photon, with the longitudinal component of the charged photon's velocity equal to the velocity of the electron. The electron's relativistic energy-momentum equation is satisfied by the circulating charged photon. The relativistic momentum of the electron equals the longitudinal component of the momentum of the helically-circulating charged photon, while the relativistic energy of the electron equals the energy of the circulating charged photon. The circulating charged photon has a relativistically invariant transverse momentum that generates the z-component of the spin ħ / 2 of a slowly-moving electron. The charged photon model of the electron is found to generate the relativistic de Broglie wavelength of the electron. This result strongly reinforces the hypothesis that the electron is a circulating charged photon. Wave-particle duality may be better understood due to the charged photon model—electrons have wavelike properties because they are charged photons. New applications in photonics and electronics may evolve from this new hypothesis about the electron.
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Richard Gauthier, Richard Gauthier, } "Electrons are spin 1/2 charged photons generating the de Broglie wavelength", Proc. SPIE 9570, The Nature of Light: What are Photons? VI, 95700D (10 September 2015); doi: 10.1117/12.2180345; https://doi.org/10.1117/12.2180345
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