Dynamics of Binary Planets within Star Clusters

Yukun Huang, 宇坤 黄, Wei Zhu, 伟 祝, Eiichiro Kokubo and 保英一郎 小久
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Abstract

We develop analytical tools and perform three-body simulations to investigate the orbital evolution and dynamical stability of binary planets within star clusters. Our analytical results show that the orbital stability of a planetary-mass binary against passing stars is mainly related to its orbital period. Critical flybys, defined as stellar encounters with energy kicks comparable to the binary binding energy, can efficiently produce a wide range of semimajor axes (a) and eccentricities (e) from a dominant population of primordially tight Jupiter-mass binary objects (JuMBOs). The critical flyby criterion we derived offers an improvement over the commonly used tidal radius criterion, particularly in high-speed stellar encounters. Applying our results to the recently discovered JuMBOs by the James Webb Space Telescope (JWST), our simulations suggest that to match the observed ∼9% wide binary fraction, an initial semimajor axis of a0 ∼ 10–20 au and a density-weighted residence time of χ ≳ 104 Myr pc−3 are favored. These results imply that the JWST JuMBOs probably formed as tight binaries near the cluster core.
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星团内的双行星动力学
我们开发了分析工具并进行了三体模拟,以研究星团内双星的轨道演化和动力学稳定性。我们的分析结果表明,质量为行星的双星在面对擦肩而过的恒星时的轨道稳定性主要与其轨道周期有关。临界飞越被定义为能量踢与双星结合能相当的恒星相遇,它可以从原始紧密木星质量双星天体(JuMBOs)的主要群体中有效地产生出各种半长轴(a)和偏心率(e)。我们推导出的临界飞越标准比常用的潮汐半径标准有所改进,尤其是在高速恒星相遇时。将我们的结果应用于詹姆斯-韦伯太空望远镜(JWST)最近发现的JuMBOs,我们的模拟结果表明,为了与观测到的∼9%的宽双星比例相匹配,初始半长轴a0 ∼ 10-20 au和密度加权停留时间χ ≳ 104 Myr pc-3是比较理想的。这些结果意味着JWST JuMBOs很可能是在星团核心附近以紧密双星形式形成的。
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