由错位盘和恒星扁平度驱动的系外行星系统雕刻:HD 3167中垂直轨道的起源

Tao Fu, 韬 伏, Yue Wang and 悦 王
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摘要

已探测到相当一部分系外行星的轨道相对于其宿主星的赤道平面高度倾斜,甚至是极轨道。这些不寻常的轨道构造往往与多个天体之间的后盘世俗相互作用有关。然而,许多方面仍然难以捉摸。在这项研究中,我们考虑到了宿主星的扁球形和全空间盘势的共同作用,研究了盘引起的自旋轨道错位在塑造多行星系统结构中的作用。我们证明,大的相互行星倾角可能源于盘面光蒸发过程中发生的鞍心分岔。这种分岔会引发行星天平的瞬间非绝热转变。在这一过程之后,轨道演变分化成几种不同的模式。值得注意的是,在涉及近极性原始错位的情况下,轨道始终围绕共面平衡轴发生位移,在恒星扁平度衰减过程中可以被正交平衡所捕获。然而,轨道最终会被共面平衡重新捕获,与外层轨道的方向对齐或反对齐,从而形成顺行或逆行的内层-外层轨道配置。此外,广义相对论也有助于在这些动态情景中保持偏心稳定性。通过所提出的机制,我们可以为在HD 3167系统中观测到的独特的、近乎垂直的、很可能是逆行的轨道结构提供一个合理的解释,从而加深我们对外行星系统动力学的理解。
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Sculpting of Exoplanetary Systems Driven by a Misaligned Disk and Stellar Oblateness: Origin of Perpendicular Orbits in HD 3167
A significant proportion of exoplanets have been detected with highly tilted or even polar orbits relative to their host stars’ equatorial planes. These unusual orbital configurations are often linked to postdisk secular interactions among multiple bodies. However, many aspects remain elusive. In this study, we investigate the role of disk-induced spin–orbit misalignments in shaping the architecture of multiplanet systems, taking into account the combined effect of the host star’s oblateness and the full-space disk potential. We demonstrate that large mutual planetary inclinations can arise from a saddle-center bifurcation occurring during the photoevaporation of the disk. This bifurcation triggers an instant, nonadiabatic transition in the planet’s libration. Following this process, the orbital evolution diverges into several distinct patterns. Notably, in scenarios involving a near-polar primordial misalignment, the orbit, consistently librating about a coplanar equilibrium axis, can be captured by an orthogonal equilibrium during the decay of the stellar oblateness. However, the orbit will be eventually recaptured by the coplanar equilibrium, aligned or antialigned with the orientation of the outer orbit, resulting in either a prograde or retrograde inner–outer orbit configuration. Additionally, general relativity contributes to maintaining eccentricity stability within these dynamic scenarios. Through the proposed mechanism, we can provide a plausible explanation for the unique, near-perpendicular, and likely retrograde orbit architecture observed in the HD 3167 system, enhancing our understanding of exoplanetary system dynamics.
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