Novel black saddles for 5d gravitational indices and the index enigma

Abstract

We construct a series of novel Euclidean multi-black-hole, black ring, black Saturn, and black lens solutions to 5d supergravity that contribute as saddle-points to the 5d gravitational supersymmetric index, either in asymptotically flat space or in asymptotically AdS3× S2. All these solutions are supersymmetric, have finite temperature, and an appropriate angular velocity turned on that makes fermionic fields periodic around the thermal circle. They contribute either to the helicity supertrace of supergravity in 5d flat space or to the elliptic genus of a supergravity theory in AdS3 × S2. Their on-shell actions are independent of temperature, as consistent with the computation of a protected index, and equal to the entropy of the corresponding extremal black object. Our construction relies on uplifting saddles that can be singular in 4d, but which are desingularized in 5d. The resulting saddles exhibit a novel ``index enigma'', not encountered in previous Lorentzian solutions. One example of this enigma is that, in the computation of the index in asymptotically flat space, less symmetric black ring saddles dominate over the contributions from 5d black holes.

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