Noncommutative Time in Quantum Field Theory
High Energy Physics - Theory
2011-08-08 v2
Abstract
We analyze, starting from first principles, the quantization of field theories, in order to find out to which problems a noncommutative time would possibly lead. We examine the problem in the interaction picture (Tomonaga-Schwinger equation), the Heisenberg picture (Yang-Feldman-K\"all\'{e}n equation) and the path integral approach. They all indicate inconsistency when time is taken as a noncommutative coordinate. The causality issue appears as the key aspect, while the unitarity problem is subsidiary. These results are consistent with string theory, which does not admit a time-space noncommutative quantum field theory as its low-energy limit, with the exception of light-like noncommutativity.
Cite
@article{arxiv.1101.4798,
title = {Noncommutative Time in Quantum Field Theory},
author = {Tapio Salminen and Anca Tureanu},
journal= {arXiv preprint arXiv:1101.4798},
year = {2011}
}
Comments
25 pages, minor corrections