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Gauss’ Law and string-localized quantum field theory

Jens Mund, Karl-Henning Rehren, Bert Schroer

2020Journal of High Energy Physics20 citationsDOIOpen Access PDF

Abstract

A bstract The quantum Gauss Law as an interacting field equation is a prominent feature of QED with eminent impact on its algebraic and superselection structure. It forces charged particles to be accompanied by “photon clouds” that cannot be realized in the Fock space, and prevents them from having a sharp mass [7, 19]. Because it entails the possibility of “measurement of charges at a distance”, it is well-known to be in conflict with locality of charged fields in a Hilbert space [3, 17]. We show how a new approach to QED advocated in [25, 26, 30, 31] that avoids indefinite metric and ghosts, can secure causality and achieve Gauss’ Law along with all its nontrivial consequences. We explain why this is not at variance with recent results in [8].

Topics & Concepts

PhysicsSuperselectionGauss's lawQuantum field theoryFock spaceTheoretical physicsQuantum mechanicsHilbert spaceCausality (physics)QuantumField (mathematics)Mathematical physicsLocalityQuantum gravityClassical mechanicsLawFermionic fieldThermal quantum field theoryQuantum processObservableAlgebraic numberMetric (unit)Quantum electrodynamicsQuantum and Classical ElectrodynamicsBlack Holes and Theoretical PhysicsQuantum Chromodynamics and Particle Interactions
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