English

Particle detector models from path integrals of localized quantum fields

Quantum Physics 2024-03-14 v4 General Relativity and Quantum Cosmology High Energy Physics - Theory

Abstract

Using the Schwinger-Keldysh path integral, we draw a connection between localized quantum field theories and more commonly used models of local probes in Relativistic Quantum Information (RQI). By integrating over and then tracing out the inaccessible modes of the localized field being used as a probe, we show that, at leading order in perturbation theory, the dynamics of any finite number of modes of the probe field is exactly that of a finite number of harmonic-oscillator Unruh-DeWitt (UDW) detectors. The equivalence is valid for a rather general class of input states of the probe-target field system, as well as for any arbitrary number of modes included as detectors. The path integral also provides a closed-form expression which gives us a systematic way of obtaining the corrections to the UDW model at higher orders in perturbation theory due to the existence of the additional modes that have been traced out. This approach vindicates and extends a recently proposed bridge between detector-based and field-theory-based measurement frameworks for quantum field theory [T. R. Perche et al., Particle detectors from localized quantum field theories, Phys. Rev. D 109, 045013 (2024)], and also points to potential connections between particle detector models in RQI and other areas of physics where path integral methods are more commonplace -- in particular, the Wilsonian approach to the renormalization group and effective field theories.

Keywords

Cite

@article{arxiv.2310.16083,
  title  = {Particle detector models from path integrals of localized quantum fields},
  author = {Bruno de S. L. Torres},
  journal= {arXiv preprint arXiv:2310.16083},
  year   = {2024}
}

Comments

18 + 3 pages, 2 appendices. RevTeX 4.2. V4 updated to match published version

R2 v1 2026-06-28T13:00:40.332Z