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Main Authors: Sunny, Alan, Xavier, Semin, Shankaranarayanan, S.
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2303.04684
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author Sunny, Alan
Xavier, Semin
Shankaranarayanan, S.
author_facet Sunny, Alan
Xavier, Semin
Shankaranarayanan, S.
contents This work tests the no-hair conjecture in $f(R)$ gravity models. No-hair conjecture asserts that all black holes in General Relativity coupled to any matter must be Kerr-Newman type. However, the conjecture fails in some cases with non-linear matter sources. Here, we address this by explicitly constructing multiple slow-rotating black hole solutions, up to second order in rotational parameter, for a class of $f(R)$ models ( $f(R) =(α_{0} + α_{1}\,R)^{p}, p > 1$). Such an $f(R)$ includes all higher-powers of $R$. We analytically show that multiple vacuum solutions satisfy the field equations up to the second order in the rotational parameter. In other words, we show that the multiple vacuum solutions depend on arbitrary constants, which depend on the coupling parameters of the model. Hence, our results indicate that the no-hair theorem for modified gravity theories merits extending to include the coupling constants. The uniqueness of our result stems from the fact that these are obtained directly from metric formalism without conformal transformation. We discuss the kinematical properties of these black hole solutions and compare them with slow-rotating Kerr. Specifically, we show that the circular orbits for the black holes in $f(R)$ are smaller than that of Kerr. This implies that the inner-most stable circular orbit for black holes in $f(R)$ is smaller than Kerr's; hence, the shadow radius might also be smaller. Finally, we discuss the implications of our results for future observations.
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institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Infinitely degenerate slowly rotating solutions in $f(R)$ gravity
Sunny, Alan
Xavier, Semin
Shankaranarayanan, S.
General Relativity and Quantum Cosmology
This work tests the no-hair conjecture in $f(R)$ gravity models. No-hair conjecture asserts that all black holes in General Relativity coupled to any matter must be Kerr-Newman type. However, the conjecture fails in some cases with non-linear matter sources. Here, we address this by explicitly constructing multiple slow-rotating black hole solutions, up to second order in rotational parameter, for a class of $f(R)$ models ( $f(R) =(α_{0} + α_{1}\,R)^{p}, p > 1$). Such an $f(R)$ includes all higher-powers of $R$. We analytically show that multiple vacuum solutions satisfy the field equations up to the second order in the rotational parameter. In other words, we show that the multiple vacuum solutions depend on arbitrary constants, which depend on the coupling parameters of the model. Hence, our results indicate that the no-hair theorem for modified gravity theories merits extending to include the coupling constants. The uniqueness of our result stems from the fact that these are obtained directly from metric formalism without conformal transformation. We discuss the kinematical properties of these black hole solutions and compare them with slow-rotating Kerr. Specifically, we show that the circular orbits for the black holes in $f(R)$ are smaller than that of Kerr. This implies that the inner-most stable circular orbit for black holes in $f(R)$ is smaller than Kerr's; hence, the shadow radius might also be smaller. Finally, we discuss the implications of our results for future observations.
title Infinitely degenerate slowly rotating solutions in $f(R)$ gravity
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2303.04684