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>Conservative corrections to the innermost stable circular orbit (ISCO) of a Kerr black hole:udA new gauge-invariant post-Newtonian ISCO condition, and the ISCO shiftuddue to test-particle spin and the gravitational self-force
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Conservative corrections to the innermost stable circular orbit (ISCO) of a Kerr black hole:udA new gauge-invariant post-Newtonian ISCO condition, and the ISCO shiftuddue to test-particle spin and the gravitational self-force
The innermost stable circular orbit (ISCO) delimits the transition from circular orbits to those that plunge into a black hole. In the test-mass limit, well-defined ISCO conditions exist for the Kerr and Schwarzschild spacetimes. In the finite-mass case, there are a large variety of ways to define an ISCO in a post-Newtonian (PN) context. Here I generalize the gauge-invariant ISCO condition of Blanchet and Iyer [Classical Quantum Gravity 20, 755 (2003)] to the case of spinning (nonprecessing) binaries. The Blanchet-Iyer ISCO condition has two desirable and unexpected properties: (1) it exactly reproduces the Schwarzschild ISCO in the test-mass limit, and (2) it accurately approximates the recently calculated shift in the Schwarzschild ISCO frequency due to the conservative-piece of the gravitational self-force [L. Barack and N. Sago, Phys. Rev. Lett. 102, 191101 (2009)]. The generalization of this ISCO condition to spinning binaries has the property that it also exactly reproduces the Kerr ISCO in the test-mass limit (up to the order at which PN spin corrections are currently known). The shift in the ISCO due to the spin of the test-particle is also calculated. Remarkably, the gauge-invariant PN ISCO condition exactly reproduces the ISCO shift predicted by the Papapetrou equations for a fully relativistic spinning particle. It is surprising that an analysis of the stability of the standard PN equations of motion is able (without any form of “resummation”) to accurately describe strong-field effects of the Kerr spacetime. The ISCO frequency shift due to the conservative self-force in Kerr is also calculated from this new ISCO condition, as well as from the effective-one-body Hamiltonian of Barausse and Buonanno [Phys. Rev. D 81, 084024 (2010)]. These results serve as a useful point of comparison for future gravitational self-force calculations in the Kerr spacetime.udud
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机译:最内部的稳定圆形轨道(ISCO)界定了从圆形轨道到陷入黑洞的轨道的过渡。在测试质量极限中,对于Kerr和Schwarzschild时空存在明确的ISCO条件。在有限质量情况下,在后牛顿(PN)上下文中定义ISCO的方法有很多种。在这里,我将Blanchet和Iyer [Classical Quantum Gravity 20,755(2003)]的尺度不变ISCO条件推广到旋转(非进动)二进制的情况。 Blanchet-Iyer ISCO条件具有两个理想且出乎意料的性质:(1)精确地再现了测试质量极限中的Schwarzschild ISCO,(2)由于保守的原因,它精确地近似了最近计算出的Schwarzschild ISCO频率的偏移。引力自力[L. Barack和N. Sago,物理学。牧师102,191101(2009)]。将此ISCO条件推广到旋转二进制文件具有以下特性:它还可以在测试质量极限(直至当前已知PN自旋校正的顺序)中精确地再现Kerr ISCO。还计算了由于测试粒子的旋转而导致的ISCO偏移。值得注意的是,轨距不变的PN ISCO条件精确地再现了帕帕特普鲁方程为完全相对论的旋转粒子所预测的ISCO位移。令人惊讶的是,对标准PN运动方程稳定性的分析能够(没有任何形式的“求和”)准确地描述Kerr时空的强场效应。还根据这一新的ISCO条件以及Barausse和Buonanno的有效一体哈密顿量[Phys。 Rev.D 81,084024(2010)。这些结果为将来在Kerr时空中的重力自力计算提供了有用的比较点。 ud ud
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