Spindle solutions with hyperscalars in D=4 gauged supergravity

Abstract

We construct new classes of supersymmetric AdS2× solutions, where =(nN,nS) is a spindle. Such solutions can arise as the near horizon limit of supersymmetric, accelerating black holes. The solutions are constructed using D=4 STU U(1)4 gauged supergravity theory coupled to a charged hyperscalar, and can be uplifted to obtain smooth, supersymmetric AdS2× Y9 solutions of D=11 supergravity. We allow (nN,nS) to be non-coprime integers, including orbifolds of the round S2. We also allow the hyperscalar to vanish at the poles. The AdS2 solutions with non-vanishing hyperscalar can naturally arise as the endpoint of holographic RG flows, triggered by relevant hyperscalar deformations of the AdS2 solutions of the STU model.