Vacuum radiation and symmetry breaking in conformally invariant quantum field theory

DOI: 
10.1007/s002200050532
Publication date: 
01/02/1999
Main author: 
Aldaya, V
IAA authors: 
Aldaya, V
Authors: 
Aldaya, V; Calixto, M; Cervero, JM
Journal: 
COMMUNICATIONS IN MATHEMATICAL PHYSICS
Publication type: 
Article
Volume: 
200
Pages: 
325-354
Number: 
Abstract: 
The underlying reasons for the difficulty of unitarily implementing the whole conformal group SO(4, 2) in a massless Quantum Field Theory (QFT) on Minkowski space are investigated in this paper. Firstly, we demonstrate that the singular action of the subgroup of special conformal transformations (SCT), on the standard Minkowski space M, cannot be primarily associated with the vacuum radiation problems, the reason being more profound and related to the dynamical breakdown of part of the conformal symmetry (the SCT subgroup, to be more precise) when representations of null mass are selected inside the representations of the whole conformal group. Then we show how the vacuum of the massless QFT radiates under the action of SCT (usually interpreted as transitions to a uniformly accelerated frame) and we calculate exactly the spectrum of the outgoing particles, which proves to be a generalization of the Planckian one, this recovered as a given limit.
Database: 
WOK
Keywords: