Foliation dependence of black hole apparent horizons in spherical symmetry

Valerio Faraoni, George F. R. Ellis, Javad T. Firouzjaee, Alexis Helou, and Ilia Musco

Phys. Rev. D 95, 024008 – Published 5 January 2017

Abstract

Numerical studies of gravitational collapse to black holes make use of apparent horizons, which are intrinsically foliation dependent. We expose the problem and discuss possible solutions using the Hawking-Hayward quasilocal mass. In spherical symmetry, we present a physically sensible approach to the problem by restricting to spherically symmetric spacetime slicings. In spherical symmetry, the apparent horizons enjoy a restricted gauge independence in any spherically symmetric foliation, but physical quantities associated with them, such as surface gravity and temperature, are fully gauge dependent. The widely used comoving and Kodama foliations, which are of particular interest, are discussed in detail as examples.

Received 2 November 2016

DOI:https://doi.org/10.1103/PhysRevD.95.024008

Physics Subject Headings (PhySH)

General relativity Gravitation

Classical black holes

Gravitation, Cosmology & Astrophysics

Authors & Affiliations

Valerio Faraoni^1,*, George F. R. Ellis^2,†, Javad T. Firouzjaee^3,4,‡, Alexis Helou^5,§, and Ilia Musco^6,∥

¹Physics Department and STAR Research Cluster, Bishop’s University, 2600 College Street, Sherbrooke, Québec, Canada J1M 1Z7
²Mathematics and Applied Mathematics Department, University of Cape Town, Rondebosch, Cape Town 7701, South Africa
³School of Astronomy, Institute for Research in Fundamental Sciences (IPM), P.O. Box 19395-5531, Tehran, Iran
⁴Department of Physics (Astrophysics), University of Oxford, Keble Road, Oxford OX1 3RH, United Kingdom
⁵Arnold Sommerfeld Center, Ludwig-Maximilians-Universität, Theresienstr. 37, 80333 München, Germany
⁶Laboratoire Univers et Théories, UMR 8102 CNRS, Observatoire de Paris, Université Paris Diderot, 5 Place Jules Janssen, F-92190 Meudon, France

^*vfaraoni@ubishops.ca
^†gfrellisf@gmail.com
^‡j.taghizadeh.f@ipm.ir
^§alexis.helou@physik.uni-muenchen.de
^∥ilia.musco@obspm.fr

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Vol. 95, Iss. 2 — 15 January 2017

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