Relativistic Time-of-Arrival Measurements: Predictions, Post-Selection and Causality Problems

Author:

Anastopoulos Charis1ORCID,Plakitsi Maria-Electra2

Affiliation:

1. Department of Physics, University of Patras, 26500 Rio, Greece

2. Department of Electrical and Computing Engineering, University of Patras, 26500 Patras, Greece

Abstract

We analyze time-of-arrival probability distributions for relativistic particles in the context of quantum field theory (QFT). We show that QFT leads to a unique prediction, modulo post-selection that incorporates properties of the apparatus into the initial state. We also show that an experimental distinction of different probability assignments is possible especially in near-field measurements. We also analyze causality in relativistic measurements. We consider a quantum state obtained by a spacetime-localized operation on the vacuum, and we show that detection probabilities are typically characterized by small transient non-causal terms. We explain that these terms originate from Feynman propagation of the initial operation, because the Feynman propagator does not vanish outside the light cone. We discuss possible ways to restore causality, and we argue that this may not be possible in measurement models that involve switching the field–apparatus coupling on and off.

Funder

Julian Schwinger Foundation

Moraitis School

Publisher

MDPI AG

Subject

Applied Mathematics,General Mathematics

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