Gravitational Instabilities of Uniform Black Strings in AdS
Abstract
Locally AdSd-1×R uniform black strings (UBS) in the presence of a massless scalar field are believed to avoid the onset of the Gregory-Laflamme (GL) instability in d4 as no tachyonic modes exist in the spectrum of the Laplace-Beltrami operator. We present analytic and numerical evidence of GL modes in the Lichnerowicz spectrum indicating that AdSd-1 UBSs are classically and thermodynamically unstable at the linear level in d>4. In d=4, we confirm that uniform BTZ3 strings are indeed stable as previously suggested. We propose that linear instabilities of black strings are triggered if and only if a tachyonic mode exists in the Lichnerowicz spectrum. At the end state of the instability, AdSd-1 UBSs of finite length may tunnel to a SAdSd black hole or converge onto a novel non-uniform AdSd black string. We conjecture that weak cosmic censorship is violated if the non-uniform solution is an exact AdSd black funnel and compute entropy estimates in d>4 as evidence.
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