The Electromagnetic Shift of Energy Levels

French, J.B.; Weisskopf, V.F.

doi:10.1103/PhysRev.75.1240

The Electromagnetic Shift of Energy Levels

J.B. French
(
- MIT
)
,
V.F. Weisskopf
(
- MIT
)

Apr 15, 1949

8 pages

Published in:

Phys.Rev. 75 (1949) 1240-1248

DOI:

10.1103/PhysRev.75.1240

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Abstract: (APS)

The effect of the interaction with the radiation field in changing the energy levels of an electron in an external field is calculated using the conventional form of perturbation theory. The infinite self-energy of the electron which occurs in the same approximation is removed by subtracting from the Hamiltonian a "mass operator" M. The criteria used in deriving M are that it should correctly give the self-energy for a free electron in the absence of an external field and that the amended Hamiltonian should give a properly convariant form for the level shift in an external field. It is pointed out that M is uniquely determined by these requirements. The results give 1051 mc/sec. for the 2s12−2p12 separation in hydrogen and also show the surplus magnetic moment of the electron as α2π Bohr magnetons, as first found by Schwinger. The amended Hamiltonian can be used for determining the radiative corrections for other processes.

References(12)

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