This work analyzes the mathematical coherence of the electroweak theory. Quantum electrodynamics proves that the Dirac electron quantum function Ψ has four degrees of freedom. This theory has solid experimental sup-port. Furthermore, the rank of the matrix (1±γ5) is 2. Therefore, the electroweak theory that uses the product of this matrix and the Dirac elec-tron function: Ψweak=(1±γ5)Ψ has a mathematically erroneous structure because Ψweak assigns only two degrees of freedom to the function of the same electron. An independent analysis supports this assertion because it shows a different argument that refutes the mathematical structure of the electroweak theory.
Cite this paper
Comay, E. (2024). Compatibility Problems with the Electroweak Quantum Function. Open Access Library Journal, 11, e1472. doi: http://dx.doi.org/10.4236/oalib.1111472.
Dirac, P.A.M. (1978) The Mathematical Foundations of Quantum Theory. In: Marlow, A.R., Ed., The Mathematical Foundations of Quantum Theory, Academic Press, New York. https://doi.org/10.1016/B978-0-12-473250-6.50005-4
