Ionospheric storm

The formation mechanism of the present ionospheric storm was discussed .

对暴变形态特征及其形成机制进行了一些初步讨论。

Short-term Forecast of f_0F_2 Based on Ionospheric Storm Empirical Model and Kalman Filter

基于电离层暴时f0F2经验模型Kalman滤波短期预报

The solar flares in February 1986 caused remarkable geomagnetic storm and ionospheric storm .

1986年2月的太阳耀斑爆发导致了强烈的磁暴和电离层暴。

^ The Ionospheric Storm Group Generated by the Severe Solar Activities and the Characters of Storm Group at the Mid-Low Latitude

强太阳活动引起的电离层暴群及暴群的中低纬特性

During ionospheric storm periods , the existing prediction methods for the critical frequency of ionospheric F2 layer ( foF2 ) can not satisfy the requirements of the practical applications .

在电离层风暴期，现存的电离层F2层临界频率预测方法不能满足实际应用的要求。

To find out how these anomalies are produced may help us understand the fundamental physical and chemical processes that control the ionosphere behavior , and more importantly , is essential for the investigation of ionospheric storm .

弄清电离层中异常行为造成的原因有助于我们了解电离层是如何受各种物理和化学过程的影响和控制的。

Data analysis shows that the ionospheric storm during this magnetic storm mainly exhibits the positive storm phase around Wuhan , and the positive deviations of TECs occur during two main phases of the storm on November 8 and 10 with the largest deviation of 50 TECU .

结果表明，在这次强磁暴期间，武汉及其邻近地区电离层TEC的响应以正暴相为主，正暴相分别出现在两次主相期间，最大正偏离达到50TECU。

The results of data analysis showed that during the main and early recovery phases of the geomagnetic storm , a negative ionospheric F2 layer storm occurred globally .

结果表明，在磁暴主相和恢复相早期，出现了全球性的电离层F2层负相暴效应。

Ionospheric negative phase storm effects are exhibited in the reconstruction results during the magnetic storm . The study of present paper confirms that ( time-dependent ) 3-D CIT with ground-based GPS network and occultation observations is a powerful tool to monitor large-scale ionospheric structures under disturbed conditions .

重建结果清晰地显示了磁暴期间电离层负相暴效应，表明结合GPS地面台网和掩星观测的时变三维电离层层析可以有效地监测扰动条件下的大尺度电离层结构。

Performance analysis of ionospheric grid model during storm for wide area augmentation system

磁暴期间增强系统电离层网格模型性能分析

Morphology analysis and theoretical study of global ionospheric disturbances during magnetic storm times

磁暴期间全球电离层扰动形态分析和理论研究

Morphology analysis of mid and low latitude ionospheric response to geomagnetic storm

磁暴期间中低纬电离层暴形态和物理机制分析

The key of ionospheric weather is ionospheric storm .

电离层天气研究的重点是电离层暴。

The simulation results show that : neutral winds can restrain from the vertical upward drift of ionospheric plasma at the storm time , and delay the formation of " empty out " at the bottom of ionospheric F-layer .

通过计算机模拟发现：中性风能够对暴时电离层等离子体的垂直向上漂移产生抑制作用，并延迟电离层F层底部抛空的形成；