Chern-Simons Perturbation Theory
摘要
We study the perturbation theory for three dimensional Chern--Simons quantum field theory on a general compact three manifold without boundary. We show that after a simple change of variables, the action obtained by BRS gauge fixing in the Lorentz gauge has a superspace formulation. The basic properties of the propagator and the Feynman rules are written in a precise manner in the language of differential forms. Using the explicit description of the propagator singularities, we prove that the theory is finite. Finally the anomalous metric dependence of the -loop partition function on the Riemannian metric (which was introduced to define the gauge fixing) can be cancelled by a local counterterm as in the -loop case. In fact, the counterterm is equal to the Chern--Simons action of the metric connection, normalized precisely as one would expect based on the framing dependence of Witten's exact solution.
引用
@article{arxiv.hep-th/9110056,
title = {Chern-Simons Perturbation Theory},
author = {Scott Axelrod and I. M. Singer},
journal= {arXiv preprint arXiv:hep-th/9110056},
year = {2008}
}
备注
36 pages. Invited talk at the XXth Conference on Differential Geometric Methods in Physics, New York, June 1991