Shock-induced partial alignment in geometrically-thick tilted accretion disks around black holes

Sajal Gupta, Jason Dexter
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Abstract

We carry out idealized three-dimensional general-relativistic magnetohydrodynamic (GRMHD) simulations of prograde, weakly magnetized, and geometrically thick accretion flows where the gas distribution is misaligned from the black hole spin axis. We evolve the disk for three black hole spins: $a = 0.5, 0.75$, and $0.9375$, and we contrast them with a standard aligned disk simulation with $a = 0.9375$. The tilted disks achieve a warped and twisted steady-state structure, with the outer disk misaligning further away from the black hole and surpassing the initial $24^\circ$ misalignment. However, closer to the black hole, there is evidence of partial alignment, as the inclination angle decreases with radius in this regime. Standing shocks also emerged in proximity to the black hole, roughly at $\sim$ 6 gravitational radii. We show that these shocks act to partially align the inner disk with the black hole spin. The rate of alignment increases with increasing black hole spin magnitude, but in all cases is insufficient to fully align the gas before it accretes. Additionally, we present a toy model of orbit crowding that can predict the location of the shocks in moderate-to-fast rotating black holes, illustrating a potential physical origin for the behavior seen in simulations\textemdash with possible applications in determining the positions of shocks in real misaligned astrophysical systems.
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黑洞周围几何厚度倾斜吸积盘中冲击诱导的部分排列
我们对气体分布与黑洞自旋轴错位的顺行、弱磁化和几何厚度吸积流进行了理想化的三维广义相对论磁流体力学(GRMHD)模拟。我们演化了三种黑洞自旋的磁盘:$a = 0.5、0.75 和 0.9375$,并将它们与$a = 0.9375$的标准对齐磁盘模拟进行了对比。倾斜磁盘实现了扭曲的稳态结构,外侧磁盘在离黑洞更远的地方发生错位,并超过了初始的$24^\circ$错位。在靠近黑洞的地方,大约在 $\sim$ 6 重力半径处也出现了驻留冲击。我们表明,这些冲击的作用是使内盘与黑洞自旋部分对齐。对齐率随着黑洞自旋大小的增加而增加,但在所有情况下都不足以使气体在吸积之前完全对齐。此外,我们还提出了一个轨道拥挤的玩具模型,该模型可以预测中速到高速旋转黑洞中冲击的位置,说明了在模拟中看到的行为的潜在物理起源(inimulations\textemdash),并可能应用于确定真实错位天体物理系统中冲击的位置。
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