Non-linear Structures in Non-critical NSR String
Abstract
We investigate the Ward identities of the symmetry in the super-Liouville theory coupled to the super-conformal matter of central charge . The theory is classified into two chiralities. For the positive chirality, all gravitationally dressed scaling operators are generated from the gravitational primaries by acting one of the ring generators in the R-sector on them repeatedly. After fixing the normalizations of the dressed scaling operators, we find that the Ward identities are expressed in the form of the {\it usual} algebra constraints as in the bosonic case: , , where the equations for even and odd come from the currents in the NS- and the R-sector respectively. The non-linear terms come from the anomalous contributions at the boundaries of moduli space. The negative chirality is defined by interchanging the roles of and . Then we get the algebra constraints.
Cite
@article{arxiv.hep-th/9405130,
title = {Non-linear Structures in Non-critical NSR String},
author = {Ken-ji Hamada and Hiroshi Ishikawa},
journal= {arXiv preprint arXiv:hep-th/9405130},
year = {2015}
}
Comments
22 pages, Latex file, YITP/U-94-16, UT-Komaba/94-12