洞察号着陆器上的压力传感器在火星大气中观测到的热潮高阶谐波

arXiv - PHYS - Atmospheric and Oceanic Physics Pub Date : 2024-08-28 DOI:arxiv-2408.15745

J. Hernandez-Bernal, A. Spiga, F. Forget, D. Banfield

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引用次数: 0

摘要

热潮是行星尺度的大气波浪，其周期是太阳日的谐波。据了解，在火星大气中，与其他任何已知行星相比，热潮的影响尤为显著。基于 "洞察 "号（InSight）着陆器产生的压力时间序列数据集（该数据集在精度和时间覆盖方面都是前所未有的），我们对火星上的热潮进行了研究，我们发现了甚至超过 24 次的谐波，这大大超过了之前其他工作所报告的谐波次数。我们对潮汐谐波的特征和季节演变进行了比较探索，发现偶数和奇数谐波表现出一些明显不同的趋势，这些趋势随季节演变并对沙尘事件做出反应。

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High-Order harmonics of Thermal Tides observed in the atmosphere of Mars by the Pressure Sensor on the Insight lander

Thermal tides are atmospheric planetary-scale waves with periods that are harmonics of the solar day. In the Martian atmosphere thermal tides are known to be especially significant compared to any other known planet. Based on the data set of pressure timeseries produced by the InSight lander, which is unprecedented in terms of accuracy and temporal coverage, we investigate thermal tides on Mars and we find harmonics even beyond the number 24, which exceeds significantly the number of harmonics previously reported by other works. We explore comparatively the characteristics and seasonal evolution of tidal harmonics and find that even and odd harmonics exhibit some clearly differentiated trends that evolve seasonally and respond to dust events. High-order tidal harmonics with small amplitudes could transiently interfere constructively to produce meteorologically relevant patterns.

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arXiv - PHYS - Atmospheric and Oceanic Physics

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