English

Localisation in Quantum Field Theory

High Energy Physics - Theory 2017-08-02 v3 General Relativity and Quantum Cosmology Quantum Physics

Abstract

In nonrelatistic quantum mechanics, Born's principle of localistion is as follows: For a single particle, if a wave function ψK\psi_K vanishes outside a spatial region KK, it is said to be localised in KK. In particular if a spatial region KK' is disjoint from KK, a wave function ψK\psi_{K'} localised in KK' is orthogonal to ψK\psi_K. Such a principle of localisation does not exist compatibly with relativity and causality in quantum field theory (Newton and Wigner) or interacting point particles (Currie,Jordan and Sudarshan).It is replaced by symplectic localisation of observables as shown by Brunetti, Guido and Longo, Schroer and others. This localisation gives a simple derivation of the spin-statistics theorem and the Unruh effect, and shows how to construct quantum fields for anyons and for massless particles with `continuous' spin. This review outlines the basic principles underlying symplectic localisation and shows or mentions its deep implications. In particular, it has the potential to affect relativistic quantum information theory and black hole physics.

Keywords

Cite

@article{arxiv.1609.01470,
  title  = {Localisation in Quantum Field Theory},
  author = {A. P. Balachandran},
  journal= {arXiv preprint arXiv:1609.01470},
  year   = {2017}
}

Comments

26 pages, 3 figures, typos corrected

R2 v1 2026-06-22T15:41:00.210Z