摘要
Nighttime enhancements in ionospheric electron density at mid- and low-latitudes are investigated by using the critical frequency of the F2-layer(fo F2) data measured from ionosonde stations at Okinawa(26.3°N, 127.8°E, Geomagnetic 15.3°N), Yamagawa(31.2°N, 130.6°E, Geomagnetic 20.4°N), Kokubunji(35.7°N, 139.5°E, Geomagnetic 25.5°N), and Wakkanai(45.4°N, 141.7°E, Geomagnetic 35.4°N) in East Asia during several solar cycles. The results show that there are obvious seasonal and solar activity dependencies of the nighttime electron density enhancements. The enhancements are termed pre-midnight enhancement and post-midnight enhancement, according to the local time when the enhancement appeared. The former has a higher occurrence probability in summer months than in winter months. In contrast, the latter has a larger occurrence probability in winter months than in summer months. Moreover, the nighttime enhancements in electron density are more likely to occur at lower solar activity. These seasonal and solar activity variations of the nighttime enhancements in electron density can be explained in terms of the combined effects of downward plasma flux from the plasmasphere and the neutral winds.
Nighttime enhancements in ionospheric electron density at mid- and low-latitudes are investigated by using the critical frequency of the F2-1ayer (foF2) data measured from ionosonde stations at Okinawa (26.3°N, 127.8°E, Geomagnetic 15.3°N), Yamagawa (31.2°N, 130.6°E, Geomagnetic 20.4°N), Kokubunji (35.7°N, 139.5°E, Geomagnetic 25.5°N), and Wakkanai (45.4°N, 141.7°E, Geomagnetic 35.4°N) in East Asia during several solar cycles. The results show that there are obvious seasonal and solar activity dependencies of the nighttime electron density enhancements. The enhancements are termed pre-midnight enhancement and post-midnight enhancement, according to the local time when the enhancement appeared. The former has a higher occurrence probability in summer months than in winter months. In contrast, the latter has a larger occurrence probability in winter months than in summer months. Moreover, the nighttime enhancements in electron density are more likely to occur at lower solar activity. These seasonal and solar activity variations of the nighttime enhancements in electron density can be explained in terms of the combined effects of downward plasma flux from the plasmasphere and the neutral winds.
基金
supported by the projects of Chinese Academy of Sciences(Grant No.KZZD-EW-01-3)
the National Basic Research Program of China(Grant No.2012CB825604)
the National Natural Science Foundation of China(Grant Nos.41231065,41174137,41321003)
关键词
电子密度
中低纬度
东亚
太阳活动周期
低纬度地区
等离子体流
临界频率
出现概率
nighttime electron density enhancements, critical frequency of the F2-1ayer, seasonal and solar activity dependencies,vertical equivalent winds
