A Standard Model Neutrino Mechanism ()
ABSTRACT
This work argues a new standard model physics approach for neutrino oscillations by allowing neutrinos to have their flavor be entangled amongst all interacting fermions. Specifically, for a flavor conserved system, the effects from entanglement beginning at its origin and continuing through transit can give rise to the same observational outcomes as a flavor oscillation described by mass eigenstates. The implication being that although neutrino flavor is conserved in weak processes, this is argued to hold for all subsequent interactions. In so doing, the conventional neutrino mass propagator is argued to be a dimensional artifact of the oscillation being dependent on the linear density of material along the neutrino trajectory.
Share and Cite:
Hayes, R. (2021) A Standard Model Neutrino Mechanism.
Journal of Modern Physics,
12, 1475-1482. doi:
10.4236/jmp.2021.1211089.
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