Relativistic electrodynamics with a universal length scale
Quantum Physics
2025-07-22 v2
Abstract
We derive the analogues of the Dirac and Pauli equations from a spatially fourth-order Klein--Gordon equation with a universal length scale. Starting from a singularly perturbed variant of Maxwell's equations, we deduce a 32-dimensional variant of the Dirac equation for spin- particles through an algebraic factorization procedure. We illustrate an experimental test of the theory from the split lines of the electron beam in a Stern--Gerlach experiment. This hyperfine splitting leads to four distinct eigenvalues of the spin operator, which can be grouped into two pairs centered around the classic values of . The modified electrodynamic framework features particle-antiparticle asymmetry and an oriented, micropolar spacetime.
Cite
@article{arxiv.2507.08872,
title = {Relativistic electrodynamics with a universal length scale},
author = {Tiemo Pedergnana and Florian Kogelbauer},
journal= {arXiv preprint arXiv:2507.08872},
year = {2025}
}
Comments
15 pages, 1 figure