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The paper linked below discusses fundamental properties of
quantum fields. It relies on important constraints that a
field of a free quantum particle must abide with.
The paper compairs two weak interactions theories. It
shows many inconsistencies of the Standard Model electroweak
theory and describes elements of a theoretically consistent
weak interactions theory.
For example, textbooks on QFT present the Dirac equation of
the electron but refrain from showing the corresponding equation of the
electrically charged W± particles1. This is
certainly a very serious discrepancy because the
W± particles
are crucial elements of the electroweak theory.
For reading a full article, click
here
.
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1 Hint #1:
The
W± particles have
no consistent expression for density
(and for charge-density as well). Hence, they are inconsistent
with Maxwellian electrodynamics.
Hint #2: The following Wikipedia item shows that the full
electroweak Lagrangian density contains more than 20 terms
(click
here
).
It means that its Euler-Lagrangian equations are a mess.
Hint #3: The factor (1±γ5) was introduced
for a massless Weyl neutrino. However, it is now recognized that
"neutrinos can no longer be considered as massless particles"
(see
here
) [1].
My paper proves that in the case of a massive Dirac neutrino,
the factor (1±γ5)
leads to a contradiction.
References:
[1]
Formaggio JA and Zeller GP. From eV to EeV: Neutrino cross sections across
energy scales. Rev. Mod. Phys. 2012;84(3):1307-41.
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