Two-Dimensional Dilaton Gravity Black Hole Solution for $N=2$ Superstring Theory
Abstract
We show that {\it self-dual} supergravity theory, which is the consistent background for closed superstring theory in dimensions, can accommodate the recently discovered two-dimensional dilaton gravity black hole solution, {\it via} appropriate dimensional reductions and truncations. Interestingly, the usual dilaton field in this set of solutions emerges from the scalar field in the dimensional representation of an intrinsic global group. We also give a set of exact solutions, which can be interpreted as the dilaton field on Eguchi-Hanson gravitational instanton background, realized in an self-dual supergravity theory. This suggests that the superstring has a close (even closer) relationship with the two-dimensional black hole solution, which was originally developed in the context of bosonic string and superstring. Our result also provides supporting evidence for the conjecture that the superstring theory is the ``master theory'' of supersymmetric integrable systems in lower-dimensions.
Cite
@article{arxiv.hep-th/9312198,
title = {Two-Dimensional Dilaton Gravity Black Hole Solution for $N=2$ Superstring Theory},
author = {Hitoshi Nishino},
journal= {arXiv preprint arXiv:hep-th/9312198},
year = {2009}
}
Comments
12 pages, LATEX (with macros included), UMDEPP 93-212