Gauge independence and chiral symmetry breaking in a strong magnetic field

Gauge independence and chiral symmetry breaking in a strong magnetic field

The gauge independence of the dynamical fermion mass generated through chiral symmetry breaking in QED in a strong, constant external magnetic field is critically examined. We present a (first, to the best of our knowledge) consistent truncation of the Schwinger–Dyson equations in the lowest Landau...

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Veröffentlicht in:Annals of physics 2007-03, Vol.322 (3), p.701-708
Hauptverfasser: Leung, C.N., Wang, S.-Y.
Format: Artikel
Sprache:eng
Schlagworte:
11.30.Qc
11.30.Rd
12.20.−m
APPROXIMATIONS
CHIRAL SYMMETRY
Chiral symmetry breaking
DYSON REPRESENTATION
FERMIONS
Gauge independence
GAUGE INVARIANCE
MAGNETIC FIELDS
MASS
MATHEMATICAL SOLUTIONS
Physics
PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
QUANTUM ELECTRODYNAMICS
Quantum theory
SCHWINGER FUNCTIONAL EQUATIONS
SYMMETRY BREAKING
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Zusammenfassung:The gauge independence of the dynamical fermion mass generated through chiral symmetry breaking in QED in a strong, constant external magnetic field is critically examined. We present a (first, to the best of our knowledge) consistent truncation of the Schwinger–Dyson equations in the lowest Landau level approximation. We demonstrate that the dynamical fermion mass, obtained as the solution of the truncated Schwinger–Dyson equations evaluated on the fermion mass shell, is manifestly gauge independent.
ISSN:0003-4916
1096-035X
DOI:10.1016/j.aop.2006.03.006