European Physical Journal C: Particles and Fields (Dec 2020)

Spin-induced scalarization of Kerr black holes with a massive scalar field

  • Daniela D. Doneva,
  • Lucas G. Collodel,
  • Christian J. Krüger,
  • Stoytcho S. Yazadjiev

DOI
https://doi.org/10.1140/epjc/s10052-020-08765-3
Journal volume & issue
Vol. 80, no. 12
pp. 1 – 7

Abstract

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Abstract In the present paper we study the onset of the spin-induced scalarization of a Kerr black hole in scalar-Gauss–Bonnet gravity with a massive scalar field. Our approach is based on a $$(2+1)$$ ( 2 + 1 ) time evolution of the relevant linearized scalar field perturbation equation. We examine the region where the Kerr black hole becomes unstable giving rise to new scalarized rotating black holes with a massive scalar field. With increasing of the scalar field mass, the minimum value of the Gauss–Bonnet coupling parameter at which scalarization is possible, increases and thus the instability region shrinks. Interestingly, the introduction of scalar field mass does not change the critical minimal value of the black hole angular momentum $$a_{\mathrm{crit}}/M$$ a crit / M where the instability of the Kerr black hole develops.