On non-extremal smooth geometries and gravitational instantons
Bidisha Chakrabarty
Institute of Physics, Bhubaneswar.
Fri, Apr. 08th 2016, 14:15-15:15
Salle Claude Itzykson, Bât. 774, Orme des Merisiers

Extremal Black hole microstate geometries have been well studied in the context of the black hole information puzzle and fuzzball proposal. Non-extremal black hole microstates are much more interesting but less explored. Using the AdS/CFT prescription, we identify a general class of dual states of non-supersymmetric orbifolded D1-D5-P supergravity solutions (JMaRT). These general class of dual CFT states can be obtained by fractional spectral flow both in the left and right sectors. In the gravity side, these states correspond to the quantum degrees of freedom living in the cap region of the geometry. We compute the massless scalar emission spectrum and rate both in the gravity and CFT sides and show that they match perfectly, thus providing strong evidence for our identification. We also investigate the physics of ergoregion emission as a pair creation for these orbifolded solutions. We also discuss an alternative and more direct way to construct three charge, doubly rotating JMaRT solutions as charged Myers-Perry instantons. We present the inverse scattering construction of 5D MP instanton and add charges to it using appropriate $SO(4,4)$ hidden symmetry transformation. This construction is an extension and simplification of a previous work by Kleinschmidt et al.

Contact : rsavelli


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