1.
Solar flare forecasting method of combining support vector machine with nearest neighbors
结合支持向量机和近邻法的太阳耀斑预报方法
2.
Application of Learning Vector Quantity Network in Solar Flare Forecasting
学习矢量量化网络在太阳耀斑预报中的应用
3.
EUV emission of the solar flare
太阳耀斑极紫外辐射
4.
X-ray emission of solar flare
太阳耀斑X射线辐射
5.
VERY HIGH-ENERGY PARTICLE EMISSION FROM THE SOLAR COSMIC RAY FLARES
太阳宇宙线耀斑中的甚高能粒子发射
6.
Study on the Condition of γ-Ray Emission in Solar Flare;
太阳耀斑产生高能γ射线的过程研究
7.
Correlation between Solar Photospheric Magnetic Properties and Flare Productivity;
太阳光球磁场特性与耀斑相关性研究
8.
Statistic Analysis on Solar Activity Parameters with Solar Flare and Solar Proton Event
太阳活动区参量与太阳耀斑和太阳质子事件的相关性统计分析
9.
Study of the Flare and Its Velocity Fields Observed on August 17, 1989
1989年8月17日太阳边缘耀斑和速度场研究
10.
A Study of Ionospheric Response to the Flares;
太阳耀斑电离层效应的统计分析与模拟研究
11.
Monitoring the Effect of Solar Flares on Ionosphere by Means of GPS and Analysis of Some Results;
利用GPS对太阳耀斑电离层响应的监测和研究
12.
The Correlation between Ribbon Separation and Magnetic Field in a Two-Ribbon Flare
太阳双带耀斑的分离运动与纵向磁场的关系
13.
Solar flares are perhaps the most complex phenomena observed on the sun.
太阳耀斑大概是在太阳上观测到的最复杂的现象。
14.
(astronomy; of the sun) characterized by a high level activity in sunspots and flares and radio emissions.
(天文学;指太阳)以太阳黑子、耀斑和辐射的高等级活动为特点。
15.
One possibility is that the blast was like an ultra-powerful solar flare.
一种可能的原因是这种爆炸很像有超级能量的太阳耀斑。
16.
Here a white sunspot shoots out giant magentic spikes into space.
图中,太阳白光耀斑释放出的巨大能量形成深红色的火舌——日珥。
17.
The Influence of the Great Solar Flare of 24 April 1984 on the Ionospheric Total Electron Content
1984年4月24日大太阳耀斑爆发对电离层电子总含量的影响
18.
Rapid Rotation of Sunspot Associated Flares and the Rotation of the Magnetic Fields in the Evolution of the Sunspot;
引发耀斑的太阳黑子快速旋转与黑子演化中磁场的旋转运动