Influence of relief on the atmospheric electric field

Pub Date : 2024-03-26 DOI:10.12737/stp-101202407
Valery Denisenko
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Abstract

Measurements of the fair-weather electric field in mountainous areas are affected by the terrain, and therefore need additional calibration to be included in the global field picture. To do this, it is proposed to solve the three-dimensional electric current continuity problem of the atmosphere in the region between the Earth's surface and the ionosphere. As an example, the neighborhood of Klyuchevskaya Sopka is considered. With an increase in the height of the plateaus, the fair-weather electric current density above them increases, and the electric field strength decreases. A one-dimensional model of atmosphere conductivity is not applicable for terrain with steep slopes. A comparison of the daily-seasonal diagrams constructed according to the data of the Carnegie Cruise VII and according to the Tomsk Observatory showed the similarity of variations of the fair-weather electric field strength in such different places on the Earth. The field over the sea is about half as small as over low-lying land at the same time.
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浮雕对大气电场的影响
山区的全天候电场测量受到地形的影响,因此需要额外的校准才能纳入全球电场图。为此,建议解决地球表面和电离层之间区域的大气三维电流连续性问题。以 Klyuchevskaya Sopka 附近为例。随着高原高度的增加,高原上空的全天候电流密度增大,电场强度减小。一维大气传导模型不适用于陡坡地形。根据卡内基第七次巡航的数据和托木斯克天文台的数据绘制的日-季节图对比显示,地球上这些不同地方的晴天电场强度变化相似。同一时间,海面上的电场比低洼陆地上的电场小一半左右。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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