高温下的熔岩世界表面测量

Marc-Antoine Fortin, Esteban Gazel, Daniel B. Williams, James O. Thompson, Lisa Kaltenegger and Michael S. Ramsey
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摘要

詹姆斯-韦伯太空望远镜(JWST)对熔岩世界的发射进行了首次测量,探测了这些世界的情况,它们的温度非常高,其表面很可能是熔融的或部分熔融的。这些观测为探索岩质行星的演化提供了一个独特的机会。熔岩世界系外行星的表面可以让人们深入了解它们的成分和内部构造。然而,要理解 JWST 的数据,需要大量潜在系外行星表面成分和温度的光谱发射率数据。在此,我们选择了八颗合成的、潜在的系外行星表面,这些表面的化学成分跨度很大,为观测者提供了解读 JWST 数据的工具,以探索熔岩世界。我们的数据构成了第一个可能的高温系外行星表面光谱库。根据这些测量结果,我们确定了不同温度下成分与 9 μm 左右的强光谱特征--克里斯琴森频率(CF)之间的联系。此外,我们还报告说,与材料的主体成分相关的克里斯琴森频率偏移要比其温度重要得多。这为帮助解释未来 JWST 和未来任务收集的熔岩世界光谱提供了重要工具。
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Lava Worlds Surface Measurements at High Temperatures
First measurements of the emission of lava worlds with the James Webb Space Telescope (JWST) probe the conditions on worlds so hot that their surfaces are likely molten or partially molten. These observations provide a unique opportunity to explore rocky planets’ evolution. Surfaces of lava world exoplanets can give insights into their composition and their interior workings. However, data of spectral emissivity of a wide range of potential exoplanet surface compositions and temperatures is required to understand JWST data. Here, we chose eight synthetic, potential exoplanet surfaces that span a wide range of chemical compositions to provide observers with a tool for the interpretation of JWST data for the exploration of lava worlds. We present the measured infrared emissivity spectra (2.5–20 μm) of these materials for temperatures between 800° C and 1350° C. Our data comprise the first spectral library of possible high-temperature exoplanet surfaces. From these measurements, we establish the link between composition and a strong spectral feature at around 9 μm, the Christiansen frequency (CF) for different temperatures. Additionally, we report that the shift in the CF associated with the bulk composition of the material is significantly more important than its temperature. This provides a critical tool to aid in interpreting future spectra of lava worlds that will be collected by the JWST and future missions.
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