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THE GENERAL RELATIVISTIC WAVE EQUATION I
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angular momentum c-number calculation charged fields commutation relations components conjugate corresponding coupling constant covariant decay defined denote derivation operators Dirac field discussion effects eigenvalues electromagnetic field electron elementary particles energy-momentum example experimental external factor Feynman diagram field equations field quantities finite follows free fields give given half integer spin half-integer Heisenberg hermitian high energy independent infinite infinities integration interaction Hamiltonian interaction Lagrangian interaction representation introduce isotopic spin jr-meson leads Lorentz condition Lorentz transformation magnetic mass matrix element meson momenta neutral neutron nuclei nucleon obtain PAULI perturbation photons Phys present quantum field primitively divergent diagrams Proc Prog propagator proper field pseudoscalar pseudovector Qa(x quantum electrodynamics quantum field theory quantum mechanics renormalisation theory respectively S-matrix SAKATA satisfy self-energy shown in Ch shows spinor field Substituting surface symmetric TAKAHASHI tensor term theorem UMEZAWA vacuum vertex wave functions written Zeits zero