Spontaneous Lorentz Violation: The Case of Infrared QED

• Published in: arXiv.org
• Main Authors: Balachandran, A P, Kurkcuoglu, S, de Queiroz, A R, Vaidya, S
• Format: Paper Journal Article
• Language: English
• Published: Ithaca Cornell University Library, arXiv.org 08.01.2015
• Subjects: Atoms & subatomic particles; Charged particles; Codification; Fermions; Group theory; Photons; Physics - High Energy Physics - Phenomenology; Physics - High Energy Physics - Theory
• ISSN: 2331-8422
• DOI: 10.48550/arxiv.1406.5845

It is by now clear that infrared sector of QED has an intriguingly complex structure. Based on earlier pioneering works on this subject, two of us recently proposed a simple modification of QED by constructing a generalization of the \(U(1)\) charge group of QED to the "Sky" group incorporating the known spontaneous Lorentz violation due to infrared photons, but still compatible in particular with locality. There it was shown that the "Sky" group is generated by the algebra of angle dependent charges and a study of its superselection sectors has revealed a manifest description of spontaneous breaking of Lorentz symmetry. We further elaborate this approach here and investigate in some detail the properties of charged particles dressed by the infrared photons. We find that Lorentz violation due to soft photons may be manifestly codified in an angle dependent fermion mass modifying therefore the fermion dispersion relations. The fact that the masses of the charged particles are not Lorentz invariant affects their spin content too.Time dilation formulae for decays should also get corrections. We speculate that these effects could be measured possibly in muon decay experiments.