黑天是阴云密布的：HD 209458 b和WASP-43 b上的含铁云层可以解释日侧反照率低的原因

arXiv - PHYS - Earth and Planetary Astrophysics Pub Date : 2024-08-30 DOI:arxiv-2409.00249

K. L. Chubb, D. Samra, Ch. Helling, L. Carone, D. M. Stam

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摘要

我们模拟了热木星系外行星HD 209458b和WASP-43 b的几何反照率光谱，其依据是经动能云模型后处理的全球气候模型（GCM）。我们预测 WASP-43 b 的整个日侧都是多云的，而 HD 209458 b 在热亚太阳点附近的上层大气是清晰的，这主要是由于在全球气候模型中加入了强光学吸收体 TiO 和 VO，后者会导致温度反转。在这两种情况下，我们的模型都发现了较低的几何反照率--WASP-43b 为 0.026，HD 209458 b 为 0.028（在 0.35 - 1.1 微米的 CHEOPS 波段范围内平均）--这表明天色较暗，与观测所测得的低反照率相似。我们证明了含有含铁物质的云层对模拟几何反照率的强烈影响；如果云层中没有含铁物质，两颗行星的反照率都会高得多（WASP-43 b 为 0.518，HD209458 b 为 1.37）。我们的结论是，在解释 HD 209458 b 和 WASP-43 b 等热木星大气层的低日侧反照率时，含有强吸收性含铁气溶胶物种的多云上层或中下层大气是无云大气的替代选择。

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The dark days are overcast: Iron-bearing clouds on HD 209458 b and WASP-43 b can explain low dayside albedos

We simulate the geometric albedo spectra of hot Jupiter exoplanets HD 209458 b and WASP-43 b, based on global climate model (GCMs) post-processed with kinetic cloud models. We predict WASP-43 b to be cloudy throughout its dayside, while HD 209458 b has a clear upper atmosphere around the hot sub-solar point, largely due to the inclusion of strong optical absorbers TiO and VO in the GCM for the latter causes a temperature inversion. In both cases our models find low geometric albedos - 0.026 for WASP-43b and 0.028 for HD 209458 b when averaged over the CHEOPS bandpass of 0.35 - 1.1 microns - indicating dark daysides, similar to the low albedos measured by observations. We demonstrate the strong impact of clouds that contain Fe-bearing species on the modelled geometric albedos; without Fe-bearing species forming in the clouds, the albedos of both planets would be much higher (0.518 for WASP-43 b, 1.37 for HD 209458 b). We conclude that a cloudy upper or mid-to-lower atmosphere that contains strongly absorbing Fe-bearing aerosol species, is an alternative to a cloud-free atmosphere in explaining the low dayside albedos of hot Jupiter atmospheres such as HD 209458 b and WASP-43 b.

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arXiv - PHYS - Earth and Planetary Astrophysics

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