Non-Perturbative Unitary Mixing of Bosonic Causal Spinors
James Lindesay
TL;DR
This paper introduces non-perturbative unitary mixing of bosonic causal spinors, providing a novel representation that aligns with observed electroweak boson mass ratios.
Contribution
It presents the first non-trivial boson representations of causal spinors and develops a unitary mixing framework applied to electroweak bosons.
Findings
Mass ratios match experimental values
Unitary mixing of degenerate bosonic spinors developed
New bosonic causal spinor representations introduced
Abstract
The fundamental fermion representations of causal spinor fields have previously been demonstrated to describe free Dirac fermions, as well as incorporate \emph{only} the observed degrees of freedom for local gauge invariance. In this paper, the first non-trivial boson representations of causal spinors will be presented. The general unitary mixing of degenerate bosonic spinors will be developed, and then applied to electro-weak bosons satisfying appropriate kinematic constraints. The resulting mass ratios are seen to be consistent with reported measured values for these bosons.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · Noncommutative and Quantum Gravity Theories · Quantum and Classical Electrodynamics