The effect of the passage of Gliese 710 on Oort cloud comets

B. Loibnegger, E. Pilat-Lohinger, Max Zimmermann, S. Clees
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引用次数: 1

Abstract

Abstract Based on observations by Bailer-Jones et al. (2018) who propose a close fly-by of the K-type star Gliese 710 in approximately 1.36 Myr we investigate the immediate influence of the stellar passage on trajectories of Oort cloud objects. Using a newly developed GPU-based N-body code (Zimmermann (2021)) we study the motion of 3.6 million testparticles in the outer Solar system where the comets are distributed in three different “layers” around the Sun and the 4 giant planets. We study the immediate influence of Gliese 710 at three passage distances of 12000, 4300, and 1200 au. Additionally, different inclinations of the approaching star are considered. Depending on the passage distance a small number of comets (mainly from the disk and flared disk) is scattered into the observable region (< 5 au) around the Sun. In addition, a huge number of comets (mainly the ones directly in the path of the passing star) shows significant changes of their perihelia. But, they will enter the inner Solar system a long time after the stellar fly-by depending on their dynamical evolution.
格利泽710通过对奥尔特云彗星的影响
基于Bailer-Jones等人(2018)的观测,我们研究了恒星通过对奥尔特云天体轨迹的直接影响。Bailer-Jones等人提出了k型恒星Gliese 710在大约1.36 Myr的轨道上近距离飞行。使用新开发的基于gpu的n体代码(Zimmermann(2021)),我们研究了外太阳系中360万个测试粒子的运动,其中彗星分布在太阳和4颗巨行星周围的三个不同“层”中。我们研究了Gliese 710在12000、4300和1200 au三个通过距离上的直接影响。此外,还考虑了接近恒星的不同倾角。根据通过距离的不同,少数彗星(主要来自圆盘和爆发盘)被分散到太阳周围的可观测区域(< 5 au)。此外,大量彗星(主要是直接在经过恒星的路径上的彗星)的近日点表现出明显的变化。但是,根据它们的动力学演化,它们将在恒星飞掠后很长一段时间内进入太阳系内部。
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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