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A derviation of a quantum potential has been demonstrated from purely classical Maxwell’s electrodynamics and published recently in a high impact factor journal (
https://doi.org/10.1007/s11071-020-05928-5). I am the author of the paper, and therefore I am not the person allowed to upload the reference, since a COI is at stake. But perhaps, if someone finds it interesting, he could introduce a section entitled “Zitterbewegung” with something similar to this:
It has been recently demonstrated that charged extended particles can experience self-oscillatory dynamics as a result of classical electrodynamic self-interactions \cite{}. This trembling motion has a frequency that is closely related to the zitterbewegung frequency appearing in Dirac's equation. The mechanism producing these fluctuations arises because some parts of an accelerated charged corpuscle emit electromagnetic perturbations that can affect another part of the body, producing self-forces. Using the Liénard-Wiechert potential as solutions to Maxwell's equations with sources, a self-potential can be analytically derived, presenting the same constants appearing in the quantum potential. This contribution to self-energy can produce a symmetry breaking of the Lorentz group, triggering the self-oscillations from small perturbations. — Preceding
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