General Rotating Five Dimensional Black Holes of Toroidally Compactified Heterotic String
Abstract
We present the most general rotating black hole solution of five-dimensional N=4 superstring vacua that conforms to the ``no hair theorem''. It is chosen to be parameterized in terms of massless fields of the toroidally compactified heterotic string. The solutions are obtained by performing a subset of O(8,24) transformations, i.e., symmetry transformations of the effective three-dimensional action for stationary solutions, on the five-dimensional (neutral) rotating solution parameterized by the mass m and two rotational parameters l1 and l2. The explicit form of the generating solution is determined by three SO(1,1)⊂ O(8,24) boosts, which specify two electric charges Q1(1), Q2(2) of the Kaluza-Klein and two-form U(1) gauge fields associated with the same compactified direction, and the charge Q (electric charge of the vector field, whose field strength is dual to the field strength of the five-dimensional two-form field). The general solution, parameterized by 27 charges, two rotational parameters and the ADM mass compatible with the Bogomol'nyi bound, is obtained by imposing [SO(5)× SO(21)]/[SO(4)× SO(20)]⊂ O(5,21) transformations, which do not affect the five-dimensional space-time. We also analyze the deviations from the BPS-saturated limit.
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