Publication | Closed Access
Relativistic Electron Localization and the Lack of<i>Zitterbewegung</i>
103
Citations
6
References
2004
Year
EngineeringMany-body Quantum PhysicSpace-time Resolved SolutionsRelativistic PlasmaElectron OpticElectron PhysicQuantum ComputingQuantum TheoryQuantum EntanglementQuantum ScienceCompton WavelengthPhysicsQuantum Field TheoryAtomic PhysicsLocalization LengthSynchrotron RadiationNatural SciencesParticle PhysicsApplied PhysicsRelativistic Electron Localization
Using space-time resolved solutions to relativistic quantum field theory we analyze the electron-positron pair creation process from vacuum. For early times the entangled electron-positron wave function can be obtained analytically. We show that there are, in principle, no limitations to the localization length of an electron and demonstrate that its spatial probability density can be much narrower than the Compton wavelength. We also find that quantum field theory prohibits the occurrence of Zitterbewegung for an electron.
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