Influence of annual atmospheric tide asymmetry on annual anomalies of the ionospheric mean state

IF 2.9 3区地球科学

Earth and Planetary Physics Pub Date : 2020-09-18 DOI:10.26464/epp2020041

ZhiPeng Ren, WeiXing Wan, JianGang Xiong, Xing Li

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Abstract

Through respectively adding June tide and December tide at the low boundary of the GCITEM-IGGCAS model (Global Coupled Ionosphere–Thermosphere–Electrodynamics Model, Institute of Geology and Geophysics, Chinese Academy of Sciences), we simulate the influence of atmospheric tide on the annual anomalies of the zonal mean state of the ionospheric electron density, and report that the tidal influence varies with latitude, altitude, and solar activity level. Compared with the density driven by the December tide, the June tide mainly increases lower ionospheric electron densities (below roughly the height of 200 km), and decreases electron densities in the higher ionosphere (above the height of 200 km). In the low-latitude ionosphere, tides affect the equatorial ionization anomaly structure (EIA) in the relative difference of electron density, which suggests that tides affect the equatorial vertical E × B plasma drifts. Although the tide-driven annual anomalies do not vary significantly with the solar flux level in the lower ionosphere, in the higher ionosphere the annual anomalies generally decrease with solar activity.

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年大气潮汐不对称对电离层平均状态年异常的影响

通过在GCITEM-IGGCAS模式(中国科学院地质与地球物理研究所全球电离层-热层-电动力学耦合模式)低边界分别加入6月潮和12月潮，模拟了大气潮对电离层电子密度纬向平均状态年异常的影响，并报告了潮汐的影响随纬度、海拔和太阳活动水平的变化而变化。与12月潮汐驱动的密度相比，6月潮汐主要增加电离层低层(约200 km以下)的电子密度，降低电离层高层(200 km以上)的电子密度。在低纬度电离层，潮汐影响赤道电离异常结构(EIA)中电子密度的相对差，表明潮汐影响赤道垂直E × B等离子体漂移。在较低电离层，潮汐驱动的年距平随太阳通量水平变化不大，但在较高电离层，年距平一般随太阳活动减小。

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来源期刊

Earth and Planetary Physics GEOSCIENCES, MULTIDISCIPLINARY-

自引率

17.20%

发文量

174