Is Parity Violation a Dynamical Effect?

Abstract

As has been shown by multiple authors in recent decades, it is possible to reformulate various portions of the standard model over the ring of complex quaternions. In this paper, we utilize a complex quaternion spin representation of the spacetime algebra to derive the magnetic moments of standard model fermions and the W boson. The moments calculated are not limited to those with the photon. We account for coupling to the magnetic fields of each standard model gauge boson. We naively assume that fermions coupled to weak isospin have magnetic moments with the charged bosons. Upon assuming these charged moments exist, we realize that they are to be influenced by the neutral, pseudovector-valued magnetic fields that are observed when a charged particle is moving. Visualizing the derived moments of fermions and charged bosons together, we find a possible explanation for the parity asymmetry observed in charged weak interactions.