PICASO 的反射光相位曲线:开普勒-7b 案例研究

Colin D. Hamill, Alexandria V. Johnson, Natasha Batalha, Rowan Nag, Peter Gao, Danica Adams and Tiffany Kataria
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摘要

研究系外行星的反射光有助于我们了解其大气层的散射特性,这也是未来空间和地面旗舰望远镜的主要任务。我们介绍了用于大气散射观测的行星强度代码(PICASO)的增强功能,这是一种用于系外行星和褐矮星大气的开源辐射传递模型,可以从三维大气模型中生成反射光相位曲线。由于 PICASO 与云代码 Virga 相耦合,我们可以生成不同云冷凝物种类和不同沉积效率 (fsed) 的相位曲线,并将这一新功能应用于开普勒-7b,这是一颗热木星,其相位曲线测量以反射星光为主。我们为开普勒-7b 建立了三种不同的云情景模式:仅硅酸镁云、仅硅酸镁云以及硅酸镁、氧化铝和二氧化钛云。我们的所有 Virga 模型都再现了以往研究中预期的亚恒星点以西的云雾区,以及高纬度和东缘附近的云雾,这些云雾主要由硅酸镁组成。亚恒星点附近主要是 Al2O3 和 TiO2 云。然后,我们将建模的反射光相曲线与开普勒观测结果进行比较,发现所有三种云冷凝物种类和低沉积效率(0.03-0.1)的模型匹配度最高,尽管我们的反射光相曲线显示的强度大约是开普勒观测结果的三分之一。我们的结论是,需要更好地理解带状传输、云辐射反馈和粒子散射特性,以进一步解释模型和观测到的反射光通量之间的差异。
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Reflected-light Phase Curves with PICASO: A Kepler-7b Case Study
Examining reflected light from exoplanets aids in our understanding of the scattering properties of their atmospheres and will be a primary task of future flagship space- and ground-based telescopes. We introduce an enhanced capability of Planetary Intensity Code for Atmospheric Scattering Observations (PICASO), an open-source radiative transfer model used for exoplanet and brown dwarf atmospheres, to produce reflected light phase curves from three-dimensional atmospheric models. Since PICASO is coupled to the cloud code Virga, we produce phase curves for different cloud condensate species and varying sedimentation efficiencies (fsed) and apply this new functionality to Kepler-7b, a hot Jupiter with phase curve measurements dominated by reflected starlight. We model three different cloud scenarios for Kepler-7b: MgSiO3 clouds only, Mg2SiO4 clouds only, and Mg2SiO4, Al2O3, and TiO2 clouds. All our Virga models reproduce the cloudy region west of the substellar point expected from previous studies, as well as clouds at high latitudes and near the eastern limb, which are primarily composed of magnesium silicates. Al2O3 and TiO2 clouds dominate near the substellar point. We then compare our modeled reflected light phase curves to Kepler observations and find that models with all three cloud condensate species and low sedimentation efficiencies (0.03–0.1) match best, though our reflected light phase curves show intensities approximately one-third of those observed by Kepler. We conclude that a better understanding of zonal transport, cloud radiative feedback, and particle scattering properties is needed to further explain the differences between the modeled and observed reflected light fluxes.
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