Charged Sectors and Scattering States in Quantum Electrodynamics

Frohlich, J.; Morchio, G.; Strocchi, F.

doi:10.1016/0003-4916(79)90187-8

Charged Sectors and Scattering States in Quantum Electrodynamics

J. Frohlich
(
- IHES, Bures-sur-Yvette
)
,
G. Morchio
(
- Pisa U.
)
,
F. Strocchi
(
- CERN
)

Aug, 1978

59 pages

Published in:

Annals Phys. 119 (1979) 241-248

DOI:

10.1016/0003-4916(79)90187-8

Report number:

CERN-TH-2544

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Abstract: (Elsevier)

Charge operator and charged sectors in four-dimensional QED are investigated, both within a local, covarian (indefinite metric), and within a positive metric formulation of QED. Assuming a few basic, physical principles-such as Gauss'law and a correspondence principle, etc.-we conclude that charge states determine non-Fock ( coherent state ) representations of the algebra generated by the asymptotic, electromagnetic field, that Lorentz boosts do not leave the harged sectors invariant ( spontaneous breaking of boost symmetry ), and that an unambiguous definition of the “mass” of the charged infraparticles is possible. This and other results represent first steps at extending the Haag-Ruelle scattering theory to charged infraparticles.

review
quantum electrodynamics
vacuum state
charge: superselection rule
charge: topological
asymptotic behavior
Gauss law
indefinite metric
operator: algebra
group theory: Lorentz

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