English

Quantum fields and local measurements

Mathematical Physics 2020-07-27 v3 General Relativity and Quantum Cosmology math.MP Quantum Physics

Abstract

The measurement process is considered for quantum field theory on curved spacetimes. Measurements are carried out on one QFT, the "system", using another, the "probe" via a dynamical coupling of "system" and "probe" in a bounded spacetime region. The resulting "coupled theory" determines a scattering map on the uncoupled combination of the "system" and "probe" by reference to natural "in" and "out" spacetime regions. No specific interaction is assumed and all constructions are local and covariant. Given any initial probe state in the "in" region, the scattering map determines a completely positive map from "probe" observables in the "out" region to "induced system observables", thus providing a measurement scheme for the latter. It is shown that the induced system observables may be localized in the causal hull of the interaction coupling region and are typically less sharp than the probe observable, but more sharp than the actual measurement on the coupled theory. Post-selected states conditioned on measurement outcomes are obtained using Davies-Lewis instruments. Composite measurements involving causally ordered coupling regions are also considered. Provided that the scattering map obeys a causal factorization property, the causally ordered composition of the individual instruments coincides with the composite instrument; in particular, the instruments may be combined in either order if the coupling regions are causally disjoint. This is the central consistency property of the proposed framework. The general concepts and results are illustrated by an example in which both "system" and "probe" are quantized linear scalar fields, coupled by a quadratic interaction term with compact spacetime support. System observables induced by simple probe observables are calculated exactly, for sufficiently weak coupling, and compared with first order perturbation theory.

Keywords

Cite

@article{arxiv.1810.06512,
  title  = {Quantum fields and local measurements},
  author = {Christopher J. Fewster and Rainer Verch},
  journal= {arXiv preprint arXiv:1810.06512},
  year   = {2020}
}

Comments

36pp, 1 figure. An extended abstract appears in the text. v2: Some material rearranged, new results and references added and typos fixed. v3: Published version. Some results in Sec. 5.1 generalised, minor corrections made

R2 v1 2026-06-23T04:40:16.343Z