Constrained Topological Field Theory
Abstract
We derive a model of constrained topological gravity, a theory recently introduced by us through the twist of N=2 Liouville theory, starting from the general BRST algebra and imposing the moduli space constraint as a gauge fixing. To do this, it is necessary to introduce a formalism that allows a careful treatment of the global and the local degrees of freedom of the fields. Surprisingly, the moduli space constraint arises from the simplest and most natural gauge-fermion ({\sl antighost} {\sl Lagrange multiplier}), confirming the previous results. The simplified technical set-up provides a deeper understanding for constrained topological gravity and a convenient framework for future investigations, like the matter coupling and the analysis of the effects of the constraint on the holomorphic anomaly.
Cite
@article{arxiv.hep-th/9405174,
title = {Constrained Topological Field Theory},
author = {Damiano Anselmi and Pietro Fre' and Luciano Girardello and Paolo Soriani},
journal= {arXiv preprint arXiv:hep-th/9405174},
year = {2009}
}
Comments
LaTeX file, 11 pages, SISSA/ISAS 67/94/EP, IFUM 469/FT [one reference corrected]