Timelike Hopf Duality and Type IIA* String Solutions
Abstract
The usual T-duality that relates the type IIA and IIB theories compactified on circles of inversely-related radii does not operate if the dimensional reduction is performed on the time direction rather than a spatial one. This observation led to the recent proposal that there might exist two further ten-dimensional theories, namely type IIA* and type IIB*, related to type IIB and type IIA respectively by a timelike dimensional reduction. In this paper we explore such dimensional reductions in cases where time is the coordinate of a non-trivial U(1) fibre bundle. We focus in particular on situations where there is an odd-dimensional anti-de Sitter spacetime AdS2n+1, which can be described as a U(1) bundle over CPn, a non-compact version of CPn corresponding to the coset manifold SU(n,1)/U(n). In particular, we study the AdS5× S5 and AdS7× S4 solutions of type IIB supergravity and eleven-dimensional supergravity. Applying a timelike Hopf T-duality transformation to the former provides a new solution of the type IIA* theory, of the form CP2× S1× S5. We show how the Hopf-reduced solutions provide further examples of ``supersymmetry without supersymmetry.'' We also present a detailed discussion of the geometrical structure of the Hopf-fibred metric on AdS2n+1, and its relation to the horospherical metric that arises in the AdS/CFT correspondence.
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