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Relativistic causality in particle detector models: Faster-than-light signaling and impossible measurements

José de Ramón, Maria Papageorgiou, Eduardo Martín-Martínez

2021Physical review. D/Physical review. D.47 citationsDOIOpen Access PDF

Abstract

We analyze potential violations of causality in Unruh DeWitt-type detector models in relativistic quantum information. We proceed by first studying the relation between faster-than-light signaling and the causal factorization of the dynamics for multiple detector-field interactions. We show in what way spatially extended nonrelativistic detector models predict superluminal propagation of the field's initial conditions. We draw parallels between this characteristic of detector models, stemming from their nonrelativistic dynamics, and Sorkin's ``impossible measurements on quantum fields'' [R. D. Sorkin, in Directions in General Relativity: Proceedings of the 1993 International Symposium, Maryland (Cambridge University Press, 1993), Vol. 2, pp. 293--305.]. Based on these features, we discuss the validity of measurements in quantum field theory when performed with nonrelativistic particle detectors.

Topics & Concepts

Causality (physics)PhysicsSuperluminal motionDetectorQuantum field theoryField (mathematics)QuantumTheoretical physicsTheory of relativityQuantum mechanicsQuantum electrodynamicsMathematicsOpticsPure mathematicsQuantum Electrodynamics and Casimir EffectQuantum Mechanics and ApplicationsBiofield Effects and Biophysics
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