Two Dimensional String Theory and the Topological Torus
摘要
We analyze topological string theory on a two dimensional torus, focusing on symmetries in the matter sector. Even before coupling to gravity, the topological torus has an infinite number of point-like physical observables, which give rise via the BRST descent equations to an infinite symmetry algebra of the model. The point-like observables of ghost number zero form a topological ground ring, whose generators span a spacetime manifold; the symmetry algebra represents all (ground ring valued) diffeomorphisms of the spacetime. At nonzero ghost numbers, the topological ground ring is extended to a superring, the spacetime manifold becomes a supermanifold, and the symmetry algebra preserves a symplectic form on it. In a decompactified limit of cylindrical target topology, we find a nilpotent charge which behaves like a spacetime topological BRST operator. After coupling to topological gravity, this model might represent a topological phase of string theory. We also point out some analogies to two dimensional superstrings with the chiral GSO projection, and to string theory with .
引用
@article{arxiv.hep-th/9202008,
title = {Two Dimensional String Theory and the Topological Torus},
author = {Petr Horava},
journal= {arXiv preprint arXiv:hep-th/9202008},
year = {2009}
}
备注
22 pages, no figures