JWST COMPASS:超级地球L 98-59 c的3-5微米透射光谱

Nicholas Scarsdale, Nicholas Wogan, Hannah R. Wakeford, Nicole L. Wallack, Natasha E. Batalha, Lili Alderson, Artyom Aguichine, Angie Wolfgang, Johanna Teske, Sarah E. Moran, Mercedes Lopez-Morales, James Kirk, Tyler Gordon, Peter Gao, Natalie M. Batalha, Munazza K. Alam, Jea Adams Redai
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引用次数: 0

摘要

这颗小巧(R$_p=1.385\pm0.085$R$_\oplus$,M$_p=2.22\pm0.26$R$_\oplus$)、温暖(T$_textrm{eq}=553$K)的行星位于附近一颗明亮(J=7.933)的M3V恒星周围的多行星系统中。我们发现,在我们的数据精度下,L 98-59 c的透射光谱是无特征的。在分辨率为 R$\sim$200 (30 像素宽的分区)的情况下,我们在 NIRSpec G395H 的 NRS1 探测器上实现了 22ppm 的精度,在 NRS2 探测器上实现了 36ppmin 的精度。在这一精度水平上,我们能够排除原始H$_2$-He大气层在云压水平范围内至少达到$\sim$0.1mbar的可能性。通过与大气层前向模型的比较,我们还排除了大气金属度低于3σ$sim$300σ$太阳时的可能性(或者等效为大气平均分子量低于$\sim$10~g/mol)。我们还排除了纯甲烷大气。其余与我们的数据相符的情况包括完全没有大气层的行星,或者平均分子量更高的大气层,比如富含CO_2$$或H$_2$O的大气层。这项研究为越来越多的证据增添了新的内容,这些证据表明,低于1.5R值的行星缺乏扩展大气层。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
JWST COMPASS: The 3-5 Micron Transmission Spectrum of the Super-Earth L 98-59 c
We present a JWST NIRSpec transmission spectrum of the super-Earth exoplanet L 98-59 c. This small (R$_p=1.385\pm0.085$R$_\oplus$, M$_p=2.22\pm0.26$R$_\oplus$), warm (T$_\textrm{eq}=553$K) planet resides in a multi-planet system around a nearby, bright (J = 7.933) M3V star. We find that the transmission spectrum of L 98-59 c is featureless at the precision of our data. We achieve precisions of 22ppm in NIRSpec G395H's NRS1 detector and 36ppm in the NRS2 detector at a resolution R$\sim$200 (30 pixel wide bins). At this level of precision, we are able rule out primordial H$_2$-He atmospheres across a range of cloud pressure levels up to at least $\sim$0.1mbar. By comparison to atmospheric forward models, we also rule out atmospheric metallicities below $\sim$300$\times$ solar at 3$\sigma$ (or equivalently, atmospheric mean molecular weights below $\sim$10~g/mol). We also rule out pure methane atmospheres. The remaining scenarios that are compatible with our data include a planet with no atmosphere at all, or higher mean-molecular weight atmospheres, such as CO$_2$- or H$_2$O-rich atmospheres. This study adds to a growing body of evidence suggesting that planets $\lesssim1.5$R$_\oplus$ lack extended atmospheres.
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