AdS spacetimes from wrapped M5 branes
Abstract
We derive a complete geometrical characterisation of a large class of AdS3, AdS4 and AdS5 supersymmetric spacetimes in eleven-dimensional supergravity using G-structures. These are obtained as special cases of a class of supersymmetric R1,1, R1,2 and R1,3 geometries, naturally associated to M5-branes wrapping calibrated cycles in manifolds with G2, SU(3) or SU(2) holonomy. Specifically, the latter class is defined by requiring that the Killing spinors satisfy the same set of projection conditions as for wrapped probe branes, and that there is no electric flux. We show how the R-symmetries of the dual field theories appear as isometries of the general AdS geometries. We also show how known solutions previously constructed in gauged supergravity satisfy our more general G-structure conditions, demonstrate that our conditions for half-BPS AdS5 geometries are precisely those of Lin, Lunin and Maldacena, and construct some new singular solutions.
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