电离层暴

电离层暴与行扰的GPS台网监测与分析

Monitor and Analysis of Ionospheric Storms and TIDs Using GPS Array

研究结果对于深入了解电离层暴的形态学特征和空间天气预测具有基础性的意义。

The study results have foundational signification for further understanding morphological characteristics of ionospheric storms and predicting space weather .

电离层暴时的foF2预报技术研究

A technology study of f-oF-2 forecasting during the ionospheric disturbance

基于电离层暴时f0F2经验模型Kalman滤波短期预报

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

通过对2001年两次强磁暴期间电离层暴和TID的分析表明：3月31日磁暴的电离层响应整体表现为正暴相；

The analyzing results indicated that the response of the ionosphere on the storm of March 31 , on the whole , is positive storm phases ;

中纬负相电离层暴计算模式

A Calculation Model for Negative Phase Ionospheric Storms In Middle Latitudes

磁暴期间中低纬电离层暴形态和物理机制分析

Morphology analysis of mid and low latitude ionospheric response to geomagnetic 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 solar flares in February 1986 caused remarkable geomagnetic storm and ionospheric storm .

强太阳活动引起的电离层暴群及暴群的中低纬特性

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

对发生在2001年3月31日和4月11日的两个大磁暴期间的电离层暴的特征进行了分析。

Secondly , the characteristics of ionospheric storms during the two severe magnetic storms on March 31 and April 11 . 2001 are analyzed .

中纬电离层暴负相的开始时间与磁暴主相开始时间的对应关系及其理论模式

The relation between the onset times of the negative phase of ionospheric storms and the main phase of magnetic storms and a theoretical model

利用记录的频高图数据，通过参数标定和信息提取，对这三次磁暴事件中的一次事件（2006年4月13日至17日间发生）进行了较为详细的电离层暴时特性分析研究。

Throuth scaling and processing these ionogram data , the characteristics during one of the three geomagnetic storm events ( from April 13 to 17 of 2006 ) is studied in detail .

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。

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 .

中低纬电离层年度异常与暴时特性研究

Studies on the Annual and Semiannual Anomalies and Storm Characteristics of Mid - and Low Latitudes Ionosphere

电离层天气研究的重点是电离层暴。

The key of ionospheric weather is ionospheric storm .

论文建立了中低纬电离层经验模型和中纬电离层物理模型，并利用电离层物理模型进行电离层暴时变化数值模拟及地震电离层异常扰动分析。

Based on the physical model , the storm-time variation is simulated and pre-earthquake anomalous variation is investigated preliminarily .

结果显示，两次磁暴期的电离层响应表现出了各自不同的特点，从而反映出因季节变化引起的高纬电离层暴时能量注入的不同而造成的全球性电离层扰动的不同形态。

The results show that the ionospheric responses during these two storms are different and this difference is primarily caused by the seasonal difference of the magnetospheric energy deposition into the polar upper atmosphere .