Physics Letters B (Feb 2023)

A convenient gauge for virial identities in axial symmetry

  • João M.S. Oliveira,
  • Alexandre M. Pombo

Journal volume & issue
Vol. 837
p. 137646

Abstract

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Virial identities are a useful mathematical tool in General Relativity. Not only have they been used as a numerical accuracy tool, but they have also played a significant role in establishing no-go and no-hair theorems while giving some physical insight into the considered system from an energy balance perspective. While the calculation of these identities tends to be a straightforward application of Derrick's scaling argument [1], the complexity of the resulting identity is system dependent. In particular, the contribution of the Einstein-Hilbert action, due to the presence of second order derivatives of the metric functions, becomes increasingly complex for generic metrics. Additionally, the Gibbons-Hawking-York term needs to be taken into account [2]. Thankfully, since the gravitational action only depends on the metric, it is expected that a “convenient” gauge that trivializes the gravitational action contribution exists. While in spherical symmetry such a gauge is known (the m−σ parametrization), such has not been found for axial symmetry. In this letter, we propose a “convenient” gauge for axial symmetry and use it to compute an identity for Kerr black holes with scalar hair.