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A rotating hairy AdS3 black hole with the metric having only one Killing vector field

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arxiv 1505.00394 v2 pith:BANJVUQD submitted 2015-05-03 hep-th gr-qc

A rotating hairy AdS3 black hole with the metric having only one Killing vector field

classification hep-th gr-qc
keywords blackholefieldrotatinghairyscalarboundarycondition
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We perturbatively construct a three-dimensional rotating AdS black hole with a real scalar hair. We choose the mass of a scalar field slightly above the Breitenlohner-Freedman bound and impose a more general boundary condition for the bulk scalar field at AdS infinity. We first show that rotating BTZ black holes are unstable against superradiant modes under our more general boundary condition. Next we construct a rotating hairy black hole perturbatively with respect to a small amplitude $\epsilon$ of the scalar field, up to $O(\epsilon^4)$. The lumps of non-linearly perturbed geometry admit only one Killing vector field and co-rotate with the black hole, and it shows no dissipation. We numerically show that the entropy of our hairy black hole is larger than that of the BTZ black hole with the same energy and the angular momentum. This indicates, at least in the perturbative level, that our rotating hairy black hole in lumpy geometry can be the endpoint of the superradiant instability.

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  1. When AdS$_3$ Grows Hair: Boson Stars, Black Holes, and Double-Trace Deformations

    hep-th 2026-05 unverdicted novelty 7.0

    In AdS3 gravity with double-trace scalar boundary conditions, zero-frequency boson stars are the true ground state below the instability threshold, and hairy black holes carry higher entropy than BTZ at fixed mass and...