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The Real Dirac Equation

Quantum Physics 2023-09-25 v3

Abstract

Dirac's leaping insight that the normalized anti-commutator of the {\gamma}^{\mu} matrices must equal the timespace signature {\eta}^{\mu}{\nu} was decisive for the success of his equation. The {\gamma}^{\mu}-s are the same in all Lorentz frames and "describe some new degrees of freedom, belonging to some internal motion in the electron". Therefore, the imposed link to {\eta}^{\mu}{\nu} constitutes a separate postulate of Dirac's theory. I derive a manifestly covariant first order equation from the direct quantization of the classical 4-momentum vector using the formalism of Geometric Algebra. All properties of the Dirac electron & positron follow from the equation - preconceived 'internal degrees of freedom', ad hoc imposed signature and matrices unneeded. In the novel scheme, the Dirac operator is frame-free and manifestly Lorentz invariant. Relative to a Lorentz frame, the classical spacetime frame vectors e^{\mu} appear instead of the {\gamma}^{\mu} matrices. Axial frame vectors (without cross product) of the 3D orientation space defining spin and rotations appear instead of the Pauli matrices; polar frame vectors of the 3D position space naturally define boosts, etc. Not the least, the formalism shows a significantly higher computational efficiency compared to matrices.

Keywords

Cite

@article{arxiv.2212.13568,
  title  = {The Real Dirac Equation},
  author = {Sokol Andoni},
  journal= {arXiv preprint arXiv:2212.13568},
  year   = {2023}
}

Comments

16 pages double space, 1 table

R2 v1 2026-06-28T07:54:10.179Z