Quantized Topological 2-form Gravity
Abstract
We develop a perturbation theory of four-dimensional topological 2-form gravity without cosmological constant. A 2-form and an connection 1-form are used as fundamental variables instead of metric. There is no quantum correction from two-loop and higher orders in covariant gauge, in Landau gauge and in background covariant gauge. We improve naive dimensional regularization and calculate an exact quantum correction at one-loop order. We observe that the renormalizability depends on gauge choice in topological 2-form gravity. It is unrenormalizable in the covariant gauge and in the background covariant gauge. On the other hand in the Landau gauge, we obtain finite but non-covariant quantum corrections. There may exist anomaly for the gauge symmetry. (Talk given by A. Nakamichi at the Workshop on General Relativity and Gravitation held at Tokyo University, January 17-20,1994.)
Keywords
Cite
@article{arxiv.hep-th/9403057,
title = {Quantized Topological 2-form Gravity},
author = {Tomoyuki Inui and Akika Nakamichi},
journal= {arXiv preprint arXiv:hep-th/9403057},
year = {2007}
}
Comments
10 pages, LaTeX, TIT/HEP-250/COSMO-43