Discovery of a cold giant planet and mass measurement of a hot super-Earth in the multi-planetary system WASP-132

IF 5.4 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Astronomy & Astrophysics Pub Date : 2025-01-15 DOI:10.1051/0004-6361/202348177

Nolan Grieves, François Bouchy, David J. Armstrong, Babatunde Akinsanmi, Angelica Psaridi, Solène Ulmer-Moll, Yolanda G. C. Frensch, Ravit Helled, Simon Müller, Henrik Knierim, Nuno C. Santos, Vardan Adibekyan, Léna Parc, Monika Lendl, Matthew P. Battley, Nicolas Unger, Guillaume Chaverot, Daniel Bayliss, Xavier Dumusque, Faith Hawthorn, Pedro Figueira, Marcelo Aron Fetzner Keniger, Jorge Lillo-Box, Louise Dyregaard Nielsen, Ares Osborn, Sérgio G. Sousa, Paul Strøm, Stéphane Udry

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引用次数: 0

Abstract

Hot Jupiters generally do not have nearby planet companions, as they may have cleared out other planets during their inward migration from more distant orbits. This gives evidence that hot Jupiters more often migrate inward via high-eccentricity migration due to dynamical interactions between planets rather than more dynamically cool migration mechanisms through the protoplanetary disk. Here we further refine the unique system of WASP-132 by characterizing the mass of the recently validated 1.0-day period super-Earth WASP-132c (TOI-822.02), interior to the 7.1-day period hot Jupiter WASP-132b. Additionally, we announce the discovery of a giant planet at a 5-year period (2.7 AU). We also detected a long-term trend in the radial velocity data indicative of another outer companion. Using over nine years of CORALIE radial velocities (RVs) and over two months of highly sampled HARPS RVs, we determined the masses of the planets from smallest to largest orbital period to be , and , respectively. Using TESS and CHEOPS photometry data, we measured the radii of the two inner transiting planets to be and . We find a bulk density of for WASP-132c, which is slightly above the Earth-like composition line on the mass-radius diagram. WASP-132 is a unique multi-planetary system in that both an inner rocky planet and an outer giant planet are in a system with a hot Jupiter. This suggests it migrated via a rarer dynamically cool mechanism and helps to further our understanding of how hot Jupiter systems form and evolve.

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在多行星系统WASP-132中发现一颗冷巨行星并测量一颗热超级地球的质量

热木星通常没有附近的行星伴星，因为它们可能在从更远的轨道向内迁移的过程中清除了其他行星。这提供了证据，证明热木星更多的是通过行星之间的动态相互作用，而不是通过原行星盘，通过更动态的冷迁移机制，通过高偏心迁移向内迁移。在这里，我们进一步完善了WASP-132的独特系统，通过表征最近验证的周期为1.0天的超级地球WASP-132c （TOI-822.02）的质量，它位于周期为7.1天的热木星WASP-132b的内部。此外，我们宣布每5年发现一颗巨大的行星（2.7天文单位）。我们还在径向速度数据中发现了一个长期趋势，表明另一个外部伴星。利用9年多的CORALIE径向速度（RVs）和2个多月的高采样HARPS RVs，我们确定了行星从最小到最大轨道周期的质量分别为，和。利用TESS和CHEOPS的光度测量数据，我们测量了两颗内凌日行星的半径。我们发现WASP-132c的体积密度为，在质量半径图上略高于类地成分线。WASP-132是一个独特的多行星系统，内部有一颗岩石行星，外部有一颗巨大的行星，与热木星在一个系统中。这表明它是通过一种罕见的动态冷却机制迁移的，这有助于我们进一步了解热木星系统是如何形成和演化的。

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

Astronomy & Astrophysics 地学天文-天文与天体物理

CiteScore

10.20

自引率

27.70%

发文量

2105

审稿时长

1-2 weeks

期刊介绍： Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.