Diurnal Variation of Ionospheric Electron and Ion Temperatures with Altitude by QJISR

Zonghua Ding, Zhimei Tang, Ning Wang, Liandong Dai, Song Yang, Zhengwen Xu
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Abstract

The ionospheric plasma temperatures in March and June measured by the Qujing incoherent scatter radar have been used to study the diurnal variation of electron and ion temperatures with altitude (193-513km). It is found that there exist the morning and sunset enhancement and the daytime constant valley in electron temperature in March. The features like morning overshoot, day time valley (about 1000K) and sunset enhancement (with the maximum 3500K) show larger values at higher altitudes. The electron temperature above 1000K decreases with an increase in density. The sunset peak occurs earlier at higher altitudes. These above characteristic isn't prominent for electron temperature in June and ion temperature in all seasons. Both the electron and ion temperature reach a peak at about 200km and then decreases. The possible mechanism is also presented.
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电离层电子和离子温度随海拔的日变化
利用曲京非相干散射雷达3月和6月测得的电离层等离子体温度,研究了电离层电子和离子温度随海拔高度(193 ~ 513km)的日变化规律。发现3月份电子温度存在早晨和日落增强和白天的恒定谷。清晨超调、日谷(约1000K)和日落增强(最大3500K)等特征在海拔越高时值越大。1000K以上的电子温度随密度的增加而降低。海拔越高,日落高峰出现得越早。6月电子温度和四季离子温度的上述特征不明显。电子和离子温度在约200km处达到峰值,然后下降。并提出了可能的机理。
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