AIP Advances (Oct 2023)

Primal quantization postulate for quantum fields

  • Richard W. Haase

DOI
https://doi.org/10.1063/5.0175665
Journal volume & issue
Vol. 13, no. 10
pp. 105235 – 105235-5

Abstract

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We formulate a theory of quantum fields underpinned solely by the full geometric algebra structure generated by the vector space of spacetime. A modified dynamical equation of a field with associated background field potentials, distinct from Dirac’s equation, is developed and corrects the inertial potential that acts on the field. A discrete wavenumber spectrum with a possible correlation to the mass spectrum of elementary particles is obtained, and explicit expressions are derived. The formulation is mathematically driven and constitutes what we refer to as the primal field quantization postulate. While manifestly a relativistic quantum field theory, our formulation may provide a natural account of mass hierarchy and family generation. A fourth family of elementary particles is predicted, indicating that lepton and quark oscillations across generation members, as well as quantum decay processes and fluctuations, may need modifying.