The orbits of two black holes (BHs) that are initially unbound can be transformed into bound orbits by emitting gravitational waves during close encounters in a star cluster, which is called gravitational-wave (GW) capture. The effects of spin of BHs on GW capture are investigated in the context of numerical relativity. The radiated energy during the encounter is dependent on the effective spin when the BHs have equal masses, as expected from post-Newtonian approximation. The strongest emission is produced when the spins of both BHs are anti-aligned to the orbital angular momentum in the case of fly-by encounters. But the opposite is true in the case of direct merging: the strongest emission comes from the BHs with aligned spins to the orbital angular momentum. The fraction of direct merging among the GW captures increases in proportion to v ~(4/7), assuming the uniform distribution of pericenter distances in the encounters, where v is the velocity dispersion of the cluster, which means about 5% of GW capture leads to the direct merging for star clusters with v ?=?150 km s~(?1).
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机译:最初未结合的两个黑洞(BHS)的轨道可以通过在星形簇的紧密遇到期间发出引力波来转换为结合的轨道,其称为重力波(GW)捕获。在数值相对论的背景下研究了BHS旋转对GW捕获的影响。当BHS具有相等的质量时,曝光期间的辐射能量取决于牛顿后近似的预期时的有效旋转。当BHS的旋转在飞行遇到时,BHS的旋转抗对齐时,产生最强的排放。但在直接合并的情况下,相反是如此:最强的排放来自BHS,旋转对齐至轨道角动量。 GW捕获之间的直接合并的分数与 V〜(4/7)的比例增加,假设遇到围绕距离的均匀分布,其中 v是簇的速度色散,这意味着大约5%的GW捕获导致直接合并与 v?= 150 km s〜(?1)。
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