
doi: 10.1063/1.58894
We review the current status of understanding of the equation of motion of an electron. Classically, a consistent, linearized theory exists for an electron of finite extent, as long as the size of the electron is larger than the classical electron radius. Nonrelativistic quantum mechanics seems to offer a fine theory even in the point particle limit. Although there is as yet no convincing calculation, it is probable that a quantum electrodynamical result will be at least as well-behaved as is the nonrelativistic quantum mechanical results.
43 Particle Accelerators, Beam Dynamics, Electrodynamics, Electron Beams, Poincare Groups, Equations Of Motion, Lorentz Invariance, Integral Equations, Quantum Mechanics
43 Particle Accelerators, Beam Dynamics, Electrodynamics, Electron Beams, Poincare Groups, Equations Of Motion, Lorentz Invariance, Integral Equations, Quantum Mechanics
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