电离层电势作为太阳对低层大气影响的替代指标

IF 0.9 Q4 GEOCHEMISTRY & GEOPHYSICS

Solar-Terrestrial Physics Pub Date : 2023-06-29 DOI:10.12737/stp-92202313

Ashkhen Karahanyan, S. Molodykh

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引用次数: 0

摘要

我们已经探索了将电离层电势（EP）作为描述太阳活动对对流层影响的参数的可能性。我们使用半经验模型计算了EP，其中潜在的空间分布由太阳风、行星际磁场参数和地磁活动指数AL决定。我们对1975–2019年高纬度地区的EP和常用地磁活动指数进行了比较分析。已经表明，EP可以用作太阳活动的指标，因为它描述了短期扰动和长期变化。长期EP变化和近地表温度的相似趋势表明，气候系统参数的变化是由太阳大尺度磁场的缓慢变化引起的。对EP和近地表温度相关图的分析表明，大气静态稳定条件对对流层对太阳撞击响应的空间分布有影响。

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Ionospheric electric potential as an alternative indicator of solar effect on the lower atmosphere

We have explored the possibility of applying the ionospheric electric potential (EP) as a parameter describing the effects of solar activity on the troposphere. We calculated EP, using the semi-empirical model, where the potential spatial distribution is determined by solar wind, interplanetary magnetic field parameters, and the geomagnetic activity index AL. We have carried out a comparative analysis of EP and the commonly used geomagnetic activity indices in a high-latitude region for 1975–2019. It has been shown that EP can be used as an indicator of solar activity since it describes both short-period disturbances and long-term variations. The revealed similar trends in long-term EP variations and near-surface temperature suggest that the changes in climate system parameters are induced by slower changes in the Sun’s large-scale magnetic field. The performed analysis of EP and near-surface temperature correlation maps has revealed that the atmospheric static stability conditions have an effect on spatial distribution of tropospheric response to solar impact.

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来源期刊

Solar-Terrestrial Physics GEOCHEMISTRY & GEOPHYSICS-

CiteScore

1.50

自引率

9.10%

发文量

审稿时长

12 weeks