JWST NIRSpec G395H透射光谱显示1.6 R$_{oplus}$超级地球L98-59 d周围存在富硫大气层的迹象

arXiv - PHYS - Earth and Planetary Astrophysics Pub Date : 2024-08-28 DOI:arxiv-2408.15855

Amélie Gressier, Néstor Espinoza, Natalie H. Allen, David K. Sing, Agnibha Banerjee, Joanna K. Barstow, Jeff A. Valenti, Nikole K. Lewis, Stephan M. Birkmann, Ryan C. Challener, Elena Manjavacas, Catarina Alves de Oliveira, Nicolas Crouzet, Tracy. L Beck

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引用次数: 0

摘要

事实证明，探测半径低于1.6 R$_{/oplus}$的行星（通常称为岩石行星（Rogers_2015，Rogers_2021））周围的大气层具有挑战性。然而，环绕M-矮星运行的岩质行星是理想的候选者，因为它们的行星与恒星半径比非常有利。在这里，我们利用覆盖2.8到5.1微米波长范围的JWST NIRSpec G395H模式，展示了对超级地球L98-59d（1.58 R$_{\oplus}$，2.31M$_{\oplus}$）的一次凌日观测。从单次凌日观测中提取的透射谱偏离平直线 2.6 到 5.6 美元（sigma），这取决于数据缩减和检索设置。大气探测的迹象是由 3.3 至 4.8 微米之间的大吸收特征引起的。恒星污染检索分析否定了这一特征的来源，认为是由于恒星的不均匀性造成的，使大气层模型的最佳拟合包括含硫物种，这表明L98-59d的大气层可能并不处于平衡状态。除了NIRISS SOSS的凌日观测之外，这一结果还需要通过对NIRSpec G395H第二次访问的分析来证实。

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Hints of a sulfur-rich atmosphere around the 1.6 R$_{\oplus}$ Super-Earth L98-59 d from JWST NIRSpec G395H transmission spectroscopy

Detecting atmospheres around planets with a radius below 1.6 R$_{\oplus}$, commonly referred to as rocky planets (Rogers_2015, Rogers_2021), has proven to be challenging. However, rocky planets orbiting M-dwarfs are ideal candidates due to their favorable planet-to-star radius ratio. Here, we present one transit observation of the Super-Earth L98-59d (1.58 R$_{\oplus}$, 2.31 M$_{\oplus}$), at the limit of rocky/gas-rich, using the JWST NIRSpec G395H mode covering the 2.8 to 5.1 microns wavelength range. The extracted transit spectrum from a single transit observation deviates from a flat line by 2.6 to 5.6$\sigma$, depending on the data reduction and retrieval setup. The hints of an atmospheric detection are driven by a large absorption feature between 3.3 to 4.8 microns. A stellar contamination retrieval analysis rejected the source of this feature as being due to stellar inhomogeneities, making the best fit an atmospheric model including sulfur-bearing species, suggesting that the atmosphere of L98-59d may not be at equilibrium. This result will need to be confirmed by the analysis of the second NIRSpec G395H visit in addition to the NIRISS SOSS transit observation.

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arXiv - PHYS - Earth and Planetary Astrophysics

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