绘制外海王星地貌图。沙漠和热带草原之间的山脊

A. Castro-González, V. Bourrier, J. Lillo-Box, J. -B. Delisle, D. J. Armstrong, D. Barrado, A. C. M. Correia
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引用次数: 0

摘要

大气和动力学过程被认为在形成近地系外行星的分布方面起着重要作用。这种分布的一个显著特点是海王星沙漠,即在最短周期轨道上的海王星稀少。我们的目标是确定海王星沙漠的边界,并研究它向热带草原的过渡,热带草原是一个在较大轨道距离上人口密度适中的区域。我们根据开普勒 DR25 星表建立了一个行星和候选行星样本,并根据凌日和探测概率对其进行了权衡。我们将海王星沙漠划分为周期-半径空间中没有行星的3$\sigma$级别的近邻区域,并为社区提供了简单、随时可用的近似边界。我们发现在海王星沙漠和热带草原之间有一个行星密度过大的区域(3.2天),这个区域在沙漠之上4.7个西格玛级和热带草原之上3.5个西格玛级,我们将其称为海王星脊。海王星脊的周期范围与热木星堆积的周期范围(3-5天)相吻合,这表明类似的进化过程可能会作用于这两个种群。我们发现,木星堆与热木星之间的出现率大约是海王星脊与热带草原之间出现率的两倍。我们修正后的地貌支持了之前的一个假设,即一部分海王星是在其生命的晚期通过高同心度潮汐迁移(HEM)被带到沙漠边缘(即新发现的海脊)的,它们在早期到达沙漠的海王星被蒸发侵蚀后幸存了下来。因此,海脊似乎是一个真正的物理特征,说明了光蒸发和高同心度潮汐迁移之间的相互作用,进一步证明了它们在塑造近海王星分布中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mapping the exo-Neptunian landscape. A ridge between the desert and savanna
Atmospheric and dynamical processes are thought to play a major role in shaping the distribution of close-in exoplanets. A striking feature of such distribution is the Neptunian desert, a dearth of Neptunes on the shortest-period orbits. We aimed to define the boundaries of the Neptunian desert and study its transition into the savanna, a moderately populated region at larger orbital distances. We built a sample of planets and candidates based on the Kepler DR25 catalogue and weighed it according to the transit and detection probabilities. We delimited the Neptunian desert as the close-in region of the period-radius space with no planets at a 3$\sigma$ level, and provide the community with simple, ready-to-use approximate boundaries. We identified an overdensity of planets separating the Neptunian desert from the savanna (3.2 days $ \lessapprox P_{\rm orb}$ $\lessapprox$ 5.7 days) that stands out at a 4.7$\sigma$ level above the desert and at a 3.5$\sigma$ level above the savanna, which we propose to call the Neptunian ridge. The period range of the ridge matches that of the hot Jupiter pileup ($\simeq$3-5 days), which suggests that similar evolutionary processes might act on both populations. We find that the occurrence fraction between the pileup and warm Jupiters is about twice that between the Neptunian ridge and savanna. Our revised landscape supports a previous hypothesis that a fraction of Neptunes were brought to the edge of the desert (i.e. the newly identified ridge) through high-eccentricity tidal migration (HEM) late in their life, surviving the evaporation that eroded Neptunes having arrived earlier in the desert. The ridge thus appears as a true physical feature illustrating the interplay between photoevaporation and HEM, providing further evidence of their role in shaping the distribution of close-in Neptunes.
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