Infinitely degenerate slowly rotating solutions in f(R) gravity

Alan Sunny, Semin Xavier, S. Shankaranarayanan
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Abstract

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) =(\alpha_{0} + \alpha_{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.
f(R)引力中无限退化的缓慢旋转解
这项工作检验了f(R)引力模型中的 "无毛猜想"。无毛猜想认为,广义相对论中所有与任何物质耦合的黑洞都必须是克尔-纽曼型的。然而,该猜想在某些非线性物质源的情况下失效了。在这里,我们通过为一类f(R)模型(f(R) =(\alpha_{0} + \alpha_{1}\,R)^{p}, p > 1)明确构造多个慢速旋转黑洞解(旋转参数可达二阶)来解决这个问题。我们通过分析表明,多重真空解满足旋转参数二阶以内的场方程。换句话说,我们证明多重真空解取决于任意常数,而这些常数取决于模型的耦合参数。因此,我们的结果表明,修正引力理论的无发定理值得扩展到耦合常数。我们结果的唯一性源于它们是直接从度量形式主义中得到的,无需保角变换。我们讨论了这些黑洞解的运动学性质,并将它们与慢速旋转的克尔理论进行了比较。具体地说,我们发现 f(R) 中黑洞的圆形轨道小于克尔轨道。这意味着f(R)中黑洞的最内层稳定圆形轨道比克尔的小,因此影子半径也可能更小。最后,我们讨论了我们的结果对未来观测的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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