In previous papers it was shown that solutions of Weyl equation that are eigenstates of the parity operator describe a coupled pair of a monopole anti-monopole system. These results suggest to seek a solution of the Maxwell equation with a current as a source and such that the Lorentz force on the current is null. We first identify a solution where is a spacelike field. More surprisingly we find that there exists a solution F of the free Maxwell a, F = 0 that is equivalent to the inhomogeneous equation for F (a). Once this result is proved, it suggests by itself to seek more general (subluminal and even superluminal) solutions of the free Maxwell equation equivalent to an inhomogeneous Maxwell equation for a field with a current term as a source which may be a timelike or spacelike field. We exhibit one such subluminal solution, for which the Dirac-Hestenes spinor field psi associated with the electromagnetic field satisfies a Dirac-like equation for a bradyonic neutrino under the ansatz that the current is with g the quantum of magnetic charge and lambda a constant to be determined in such a way that the auto-force is zero. Together with Dirac's quantization condition this gives a quantized mass spectrum (Eq. (46)) for neutrinos, with masses of the different flavor neutrinos being of the same order of magnitude (Eq. (47)), which is in accord with recent experimental findings.

• 出版日期2014-1