Probing the Singularity of Scalar-Haired Black Holes with Holographic Complexity
Authors
Giuseppe Policastro
Simon Wittum
Abstract
It has been shown that the "complexity=anything" observables allow more possibilities to probe the geometry behind the horizon of AdS black holes compared to the volume complexity. For uncharged black holes, these observables access the geometry all the way to the vicinity of the singularity, while for charged black holes, they only probe up to the inner horizon. Under appropriate conditions, the near-singularity geometry takes the universal form of a Kasner spacetime, characterized by the Kasner exponents. By introducing scalar hair, it is possible to continuously vary the Kasner exponents away from their vacuum values. In this work, we study the behavior of two different observables to determine whether they remain viable holographic duals of complexity in the presence of scalar hair. We also investigate how deeply these observables can probe the Kasner regime near the singularity. To this end, we consider two scalar potentials: an exponential potential, which admits analytic solutions, and a pure mass term, which requires numerical analysis.
