Do anomalously-dense hot Jupiters orbit stealth binary stars?

IF 4.7 3区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Monthly Notices of the Royal Astronomical Society Pub Date : 2024-09-05 DOI:10.1093/mnras/stae2075
Tanvi Goswamy, Andrew Collier Cameron, Thomas G Wilson
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Abstract

The Wide Angle Search for Planets (WASP) survey used transit photometry to discover nearly 200 gas-giant exoplanets and derive their planetary and stellar parameters. Reliable determination of the planetary density depends on accurate measurement of the planet’s radius, obtained from the transit depth and photodynamical determination of the stellar radius. The stellar density, and hence the stellar radius are typically determined in a model-independent way from the star’s reflex orbital acceleration and the transit profile. Additional flux coming from the system due to a bright, undetected stellar binary companion can, however, potentially dilute the transit curve and radial velocity signal, leading to under-estimation of the planet’s mass and radius, and to overestimation of the planet’s density. In this study, we cross-check the published radii of all the WASP planet host stars, determined from their transit profiles and radial-velocity curves, against radiometric measurements of stellar radii derived from their angular diameters (via the Infrared Flux method) and trigonometric parallaxes. We identify eight systems showing radiometric stellar radii significantly greater than their published photodynamical values: WASPs 20, 85, 86, 103, 105, 129, 144 and 171. We investigate these systems in more detail to establish plausible ranges of angular and radial-velocity separations within which such ‘stealth binaries’ could evade detection, and deduce their likely orbital periods, mass ratios, and flux ratios. After accounting for the dilution of transit depth and radial velocity amplitude, we find that on average, the planetary densities for the identified stealth binary systems should be reduced by a factor of 1.3.
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密度异常的热木星是否环绕隐形双星运行?
广角行星搜索(WASP)巡天利用凌日光度测量发现了近200颗气态巨型系外行星,并得出了它们的行星和恒星参数。行星密度的可靠测定取决于对行星半径的精确测量,而行星半径是通过凌日深度和恒星半径的光动力学测定获得的。恒星密度以及恒星半径通常是根据恒星的反射轨道加速度和凌日剖面以与模型无关的方式确定的。然而,由于明亮的、未被发现的双星伴星而从系统中产生的额外通量可能会稀释凌日曲线和径向速度信号,从而导致低估行星的质量和半径,以及高估行星的密度。在这项研究中,我们将根据WASP行星的凌日曲线和径向速度曲线确定的所有WASP行星宿主恒星的公开半径,与根据恒星角直径(通过红外通量法)和三角视差得出的恒星半径的辐射测量值进行了核对。我们发现有八个系统的辐射测量恒星半径明显大于其公布的光动力学值:WASPs 20、85、86、103、105、129、144 和 171。我们对这些系统进行了更详细的研究,以确定这些 "隐形双星 "可能逃避探测的角速度和径向速度距离的合理范围,并推断出它们可能的轨道周期、质量比和通量比。在考虑了过境深度和径向速度振幅的稀释作用后,我们发现平均而言,已发现的隐形双星系统的行星密度应该降低 1.3 倍。
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来源期刊
CiteScore
9.10
自引率
37.50%
发文量
3198
审稿时长
3 months
期刊介绍: Monthly Notices of the Royal Astronomical Society is one of the world''s leading primary research journals in astronomy and astrophysics, as well as one of the longest established. It publishes the results of original research in positional and dynamical astronomy, astrophysics, radio astronomy, cosmology, space research and the design of astronomical instruments.
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