火星上二氧化碳+紫外线双极辐射的太阳能控制

IF 2.9 3区 地球科学
ZiChuan Li, Jun Cui, Jing Li, XiaoShu Wu, JiaHao Zhong, FaYu Jiang
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引用次数: 1

摘要

288nm附近的紫外线双峰(UVD)发射是行星上层大气日侧气辉发射的一个重要特征。在这项研究中,我们利用最近的火星大气和挥发物演化航天器上的成像紫外光谱仪进行了广泛的观测,分析了火星上UVD发射的亮度分布。强太阳周期和太阳天顶角的峰值发射强度和高度变化规律表明:(1)峰值强度和高度随太阳活动的增加而增加;(2)峰值强度随太阳天顶角的增加而减小,峰值高度增加。这些观测结果可以很好地解释太阳驱动的情景,并结合光电离和光电子碰撞电离是负责产生激发态的两个最重要的过程,从而导致UVD发射强度。尽管如此,我们认为需要一个额外的驱动因素来充分解释观测结果,这个驱动因素可能与背景大气的复杂变化有关,例如全球沙尘暴的发生。总的来说,我们的分析表明,UVD发射是在内部和外部驱动因素影响下火星白天大气变化的有用诊断。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Solar control of CO2 + ultraviolet doublet emission on Mars

The ultraviolet doublet (UVD) emission near 289 nm is an important feature of dayside airglow emission from planetary upper atmospheres. In this study, we analyzed the brightness profiles of UVD emission on Mars by using the extensive observations made by the Imaging Ultraviolet Spectrograph on board the recent Mars Atmosphere and Volatile Evolution spacecraft. Strong solar cycle and solar zenith angle variations in peak emission intensity and altitude were revealed by the data: (1) Both the peak intensity and altitude increase with increasing solar activity, and (2) the peak intensity decreases, whereas the peak altitude increases, with increasing solar zenith angle. These observations can be favorably interpreted by the solar-driven scenario combined with the fact that photoionization and photoelectron impact ionization are the two most important processes responsible for the production of excited-state and consequently the intensity of UVD emission. Despite this, we propose that an extra driver, presumably related to the complicated variation in the background atmosphere, such as the occurrence of global dust storms, is required to fully interpret the observations. In general, our analysis suggests that the UVD emission is a useful diagnostic of the variability of the dayside Martian atmosphere under the influences of both internal and external drivers.

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来源期刊
Earth and Planetary Physics
Earth and Planetary Physics GEOSCIENCES, MULTIDISCIPLINARY-
自引率
17.20%
发文量
174
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