1.
Possibility of Triggering the Geomagnetic Disturbances by the IMF Northward Bz Component
行星际磁场北向分量触发磁层扰动的可能性
2.
Ionospheric Responses to IMF Southward Turnings in Mid- and Low-latitudes
中低纬电离层对行星际磁场南向翻转的响应
3.
The possibility of triggering the geomagnetic disturbances by the northward Bz component of the IMF is discussed using some typical events and statistical analyses.
本文用典型事件和统计分析论证了行星际磁场北向分量触发地磁扰动的可能性.
4.
Effects of the Interplanetary Disturbances on Geomagnetic Storm Development
行星际扰动对地磁暴发展的影响研究
5.
An analysis of interplanetary sources of geomagnetic storm during November 7―8, 1998
1998年11月7~8日磁暴的行星际源分析
6.
Computation for the space magnetic field distribution of permanent magnetic toroidal transmission planet teeth
永磁超环面传动行星轮轮齿空间磁场分布计算
7.
Global MHD Simulation of Interaction between Interplanetary Shocks and Magnetosphere;
行星际激波与地球磁层作用的全球MHD数值模拟
8.
Characteristics of Electron Distribution Functions in Magnetic Cloud Boundary Layers
行星际磁云边界层中的电子分布函数特征
9.
Every planet that has a magnetic field has a northern point and a southern point.
每个有磁场的行星都有北极点和南极点。
10.
planetary and interplanetary probe
行星和行星际探测器
11.
The solar wind has its own magnetic field, which travels with the outflowing plasma into interplanetary space.
太阳风有它自己的磁场,这个磁场会随著外流的太阳风电浆一起流入星际空间。
12.
Study on the Interplanetary-Flux-Rope's Structures and Analysis to the Shock-Transit-Time Forecasting Method
行星际磁通量绳结构研究与激波渡越时间预报方法分析
13.
Responses of properties in the plasma sheet and at the geosynchronous orbit to interplanetary shock
磁尾等离子体片和地球同步轨道区域对行星际激波的响应
14.
International Interplanetary Space Travel Research Association
国际星际航行研究协会
15.
For a self-sustaining magnetic field to materialize from a planet, a third factor is necessary: rotation.
行星要产生能自我维持的磁场,还有第三个条件:旋转。
16.
Effects of Magnetic Fields, Viscosity, and Nonaxisymmetry on Gravitational Instability in Protoplanetary Disks
磁场、粘性和非轴对称性对原行星盘引力不稳定性的影响
17.
International Electromagnetic Fields Project
国际电磁场研究计划
18.
theory of the motion of interplanetary vehicle
行星际飞行器运动理论