Black Hole Partition Function using Hybrid Formalism of Superstrings

Abstract

The type IIA superstring partition function ZIIA on the euclidean attractor geometry AdS2 x S2 x CY3, computes the modified elliptic genus ZBH of the associated black hole. The hybrid formalism of superstrings defined as a conformally invariant sigma model on the coset supermanifold PSU(1,1|2)/U(1)xU(1), together with Calabi-Yau and chiral boson CFTs, is used to calculate ZIIA. The sigma model action on AdS2 x S2 is explicitly written in U(1)xU(1) invariant variables. The N=2 generators of AdS2 x S2 x CY3 are enlarged and embedded in an N=4 topological algebra. The world sheet superconformal invariance is then used to construct a nilpotent BRST operator, in contrast to the kappa symmetry analysis used by Beasely et. al. in hep-th/0608021. The sigma model action is explicitly shown to be closed under this BRST operator. Localization arguments are then used to deform the world sheet path integral with the addition of a BRST exact term, where, contributions arise only from the center of AdS2 and, the north and south poles of S2. This leads to the OSV result ZBH = ZIIA = |Ztop|2, where |Ztop|2 is the square of the topological string partition function.