Abstract
Abstract
The effective low temperature dynamics of near-extremal black holes is governed by the quantum fluctuations of the Schwarzian mode of JT gravity. Utilizing as a proxy a planar charged black hole in asymptotically Anti-de-Sitter spacetime, we investigate the effects of these fluctuations on a probe scalar field. The corresponding holographic real-time boundary correlators are computed following a holographic renormalization procedure, using the dubbed gravitational Schwinger-Keldysh geometry (grSK) and known exact results of boundary correlators from the near-horizon region. This analysis gives rise to a retarded Green’s function that decays as a power law for late Lorentzian times. Its analytic structure indicates the presence of a branch cut in the complex frequency domain at finite temperature. These features are a non-perturbative hallmark that prevails as long as the planar transverse space is kept compact.
Publisher
Springer Science and Business Media LLC
Reference62 articles.
1. G.J. Turiaci, New insights on near-extremal black holes, arXiv:2307.10423 [INSPIRE].
2. J. Preskill et al., Limitations on the statistical description of black holes, Mod. Phys. Lett. A 6 (1991) 2353 [INSPIRE].
3. A. Almheiri and B. Kang, Conformal symmetry breaking and thermodynamics of near-extremal black holes, JHEP 10 (2016) 052 [arXiv:1606.04108] [INSPIRE].
4. D.N. Page, Thermodynamics of near extreme black holes, hep-th/0012020 [INSPIRE].
5. S. Aretakis, Horizon instability of extremal black holes, Adv. Theor. Math. Phys. 19 (2015) 507 [arXiv:1206.6598] [INSPIRE].