Two-Dimensional Dilaton Gravity Black Hole Solution for N=2 Superstring Theory

Abstract

We show that N=8 self-dual supergravity theory, which is the consistent background for N=2 closed superstring theory in 2+2\-dimensions, can accommodate the recently discovered two-dimensional dilaton gravity black hole solution, via appropriate dimensional reductions and truncations. Interestingly, the usual dilaton field in this set of solutions emerges from the scalar field in the 70\-dimensional representation of an intrinsic global SO(8) 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 N=1 self-dual supergravity theory. This suggests that the N=2 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 N=1 superstring. Our result also provides supporting evidence for the conjecture that the N=2 superstring theory is the ``master theory'' of supersymmetric integrable systems in lower-dimensions.

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