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DIRAC FIELD THEORY AND THE LEPTONIC CURRENT
3 The field operator of the electron
4 Wave function and field theory for the neutrino
8 other sections not shown
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algebra amplitudes analogous approximation arises axial vector axial vector current baryon beta decay C-parity Cabibbo Hypothesis calculate charge combination conjugate conserved consider contribution corrections coupling constant CP-invariance CP-violation cross sections decay rate deduce defined derived determined diagram Dirac equation divergent electromagnetic current electromagnetic interactions electron experimental fermion Feynman field operators field theory follows form factors gauge bosons gauge invariant Gell-Mann given gives hadronic hadronic current Hamiltonian hermitian hypercharge hyperon implies integral isospin kaon Lagrangian leptonic leptonic current Lett linear Lorentz transformations mass meson momenta muon decay neutral current neutral kaon neutrino neutron non-zero Nucl nucleon observed octet parity violating particle Phys physical pion Plainly Poincare polarization predictions proton pseudoscalar quantities quantum numbers quark representation s-wave satisfy scalar scattering soft pion spin spinors standard model strong interactions sum rule vector current wave function weak interactions weak processes zero