Regular Article - Theoretical Physics
Hidden symmetries for ellipsoid–solitonic deformations of Kerr–Sen black holes and quantum anomalies
Rector’s Office, Alexandru Ioan Cuza University, Alexandru Lăpuşneanu street, nr. 14, UAIC—Corpus R, office 323, Iaşi, România 700057,
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Revised: 15 December 2012
Published online: 1 February 2013
We prove the existence of hidden symmetries in the general relativity theory defined by exact solutions with generic off-diagonal metrics, nonholonomic (non-integrable) constraints, and deformations of the frame and linear connection structure. A special role in characterization of such spacetimes is played by the corresponding nonholonomic generalizations of Stackel–Killing and Killing–Yano tensors. There are constructed new classes of black hole solutions and we study hidden symmetries for ellipsoidal and/or solitonic deformations of “prime” Kerr–Sen black holes into “target” off-diagonal metrics. In general, the classical conserved quantities (integrable and not-integrable) do not transfer to the quantized systems and produce quantum gravitational anomalies. We prove that such anomalies can be eliminated via corresponding nonholonomic deformations of fundamental geometric objects (connections and corresponding Riemannian and Ricci tensors) and by frame transforms.
© Springer-Verlag Berlin Heidelberg and Società Italiana di Fisica, 2013