BFV-BRST Quantization of 2D Supergravity
Abstract
Two-dimensional supergravity theory is quantized as an anomalous gauge theory. In the Batalin-Fradkin (BF) formalism, the anomaly-canceling super-Liouville fields are introduced to identify the original second-class constrained system with a gauge-fixed version of a first-class system. The BFV-BRST quantization applies to formulate the theory in the most general class of gauges. A local effective action constructed in the configuration space contains two super-Liouville actions; one is a noncovariant but local functional written only in terms of 2D supergravity fields, and the other contains the super-Liouville fields canceling the super-Weyl anomaly. Auxiliary fields for the Liouville and the gravity super-multiplets are introduced to make the BRST algebra close off-shell. Inclusion of them turns out to be essentially important especially in the super-lightcone gauge-fixing, where the super-curvature equations () are obtained as a result of BRST invariance of the theory. Our approach reveals the origin of the graded-SL(2,R) current algebra symmetry in a transparent manner.
Cite
@article{arxiv.hep-th/9502127,
title = {BFV-BRST Quantization of 2D Supergravity},
author = {T. Fujiwara and Y. Igarashi and R. Kuriki and T. Tabei},
journal= {arXiv preprint arXiv:hep-th/9502127},
year = {2016}
}
Comments
39 pages, LaTeX, no figures