Doomed Worlds. I. No New Evidence for Orbital Decay in a Long-term Survey of 43 Ultrahot Jupiters

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS The Planetary Science Journal Pub Date : 2024-07-18 DOI:10.3847/psj/ad3e80
Elisabeth R. Adams, Brian Jackson, Amanda A. Sickafoose, Jeffrey P. Morgenthaler, Hannah Worters, Hailey Stubbers, Dallon Carlson, Sakhee Bhure, Stijn Dekeyser, Chelsea X. Huang and Nevin N. Weinberg
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Abstract

Ultrahot Jupiters (UHJs) are likely doomed by tidal forces to undergo orbital decay and eventual disruption by their stars, but the timescale over which this process unfolds is unknown. We present results from a long-term project to monitor UHJ transits. We recovered WASP-12 b’s orbital decay rate of ms yr−1, in agreement with prior work. Five other systems initially had promising nonlinear transit ephemerides. However, a closer examination of two—WASP-19 b and CoRoT-2 b, both with prior tentative detections—revealed several independent errors with the literature timing data; after correction, neither planet shows signs of orbital decay. Meanwhile, a potential decreasing period for TrES-1 b, ms yr−1, corresponds to a tidal quality factor and likely does not result from orbital decay if driven by dissipation within the host star. Nominal period increases in two systems, WASP-121 b and WASP-46 b, rest on a small handful of points. Only 1/43 planets (WASP-12 b) in our sample is experiencing detectable orbital decay. For nearly half (20/42), we can rule out as high as observed for WASP-12 b. Thus, while many UHJs could still be experiencing rapid decay that we cannot yet detect, a sizable subpopulation of UHJs are decaying at least an order of magnitude more slowly than WASP-12 b. Our reanalysis of Kepler-1658 b with no new data finds that it remains a promising orbital decay candidate. Finally, we recommend that the scientific community take steps to avoid spurious detections through better management of the multi-decade-spanning data sets needed to search for and study planetary orbital decay.
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命中注定的世界。I. 在对 43 个超热木星的长期调查中没有发现轨道衰变的新证据
超热木星(UHJ)在潮汐力的作用下很可能注定要经历轨道衰变,并最终被恒星破坏,但这一过程展开的时间尺度尚不清楚。我们介绍了一个监测UHJ凌日的长期项目的结果。我们恢复了WASP-12 b的轨道衰减率,为毫秒/年-1,与之前的工作一致。其他五个系统最初的非线性凌日星历表也很有希望。然而,对两个系统--WASP-19 b和CoRoT-2 b(这两个系统之前都曾被初步探测到)的仔细研究发现,文献中的定时数据存在几个独立的错误;经过修正后,这两颗行星都没有轨道衰减的迹象。同时,TrES-1 b 的潜在衰减周期(ms yr-1)与潮汐质量因子相对应,如果是由宿主恒星内部的耗散驱动,则很可能不是轨道衰减造成的。WASP-121 b 和 WASP-46 b 这两个系统的标称周期增长只停留在少数几个点上。在我们的样本中,只有1/43的行星(WASP-12 b)正在经历可探测到的轨道衰变。因此,尽管许多 UHJ 仍在经历我们还无法探测到的快速衰变,但有相当一部分 UHJ 的衰变速度至少比 WASP-12 b 慢一个数量级。我们在没有新数据的情况下对开普勒-1658 b 进行的重新分析发现,它仍然是一个很有希望的轨道衰变候选者。最后,我们建议科学界采取措施,通过更好地管理搜索和研究行星轨道衰变所需的跨越数十年的数据集来避免虚假探测。
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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来源期刊
The Planetary Science Journal
The Planetary Science Journal Earth and Planetary Sciences-Geophysics
CiteScore
5.20
自引率
0.00%
发文量
249
审稿时长
15 weeks
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