Large Quantum Gravity Fluctuations of BTZ Black Holes

Abstract

We study the quantum fluctuations of the black hole horizon in three-dimensional Anti-de Sitter (AdS) spacetime. We define a precise protocol to calculate the horizon fluctuations and define a corresponding ``quantum width'' of the horizon. We relate the horizon fluctuations to boundary correlation functions via holography. Working in perturbative quantum gravity, we find that the quantum width is typically of order (GN LAdS3 )1/4, which is parametrically larger than the Planck scale. In detail, the quantum width depends on the scale at which it is measured, diverging logarithmically in the UV. Our results give the most rigorous evidence to date of gauge-invariant fluctuations at scales much larger than the Planck scale within perturbative quantum gravity.