运用模糊数学理论,考虑太阳质子耀斑爆发,对旱涝灾害进行预测。
The theory of fuzzy mathematics is applied in drought and flood disaster prediction in the light of solar proton flares.
太阳质子事件模型包括两个子模型:质子有无模型和质子峰值流量模型。
The proton event prediction model is consisted of two sub-models. One is the proton occurrence model, the other is proton peak flux model.
太阳质子事件是很重要的太阳活动,从1956年开始人们对它进行了深入的趼究。
Solar proton events are most important solar activities, they have been studied in depth since 1956.
质子事件通常是由太阳质子耀斑引起,质子事件对航天器和航天员可能造成致命的影响。
Proton event, which is mainly caused by solar proton flare, can destroy the spacecrafts, satellites and kill the astronauts in the outer space.
太阳质子耀斑X射线辐射特征的研究,为太阳质子事件的警报提供一个重要的途径和方法。
Studying the characteristics of solar X-ray emission for proton flare will provide an important way and method for proton event warning.
在太阳质子事件期间,传输到近地轨道的太阳高能质子通量显著增强,给飞行器安全带来挑战。
In solar proton events, flux of solar energetic protons increases significantly in low earth orbit, which posts a challenge to space crafts' safety.
分析了1997-2003年期间的59个太阳质子事件,太阳质子事件源区的卡林顿经度带。
In this paper, the Carrington longitude distribution of source location for 59 solar proton events with definite location on the solar surface during 1997-2003 is studied.
本文介绍了太阳质子事件的性质、能谱特征以及国外质子事件定量预报的方法,并作了一定的评述。
The statistical property of the solar proton events, the characteristics of energy spectrum and the methods abroad in the quantitative forecast of the solar proton events are reviewed.
因此准确的太阳质子事件预报尤其是短期预报,对于执行太空任务以及协调敏感探测仪器的使用是十分重要的。
Thus precise prediction of the solar proton events especially short-term prediction is very important to assure the security of space task and coordinate the use of sensitive equipments.
这是比你希望在太阳风中发现的多了大约三个数量级,证明反质子粒子真正被捕获并且储藏在这条带中。
That's about three orders of magnitude more than you'd expect to find in the solar wind, proving that the particles really are trapped and stored in this belt.
当两个质子束碰撞时,将产生超过太阳中心10万倍的温度,集中在微尺度空间上。
When two beams of protons collide, they will generate temperatures more than 100, 000 times hotter than the heart of the sun, concentrated within a miniscule space.
SWEAP太阳风实验将计算太阳风中的电子,质子及氦离子的数量,并且测量这些粒子的性质。
The SWEAP solar wind experiment will count the electrons, protons and helium ions in the solar wind and measure their properties.
由于中子和正电子的磁矩恰好和质子和电子的磁矩反号,故减弱了太阳内部的固有磁场,从而减弱了太阳的活动。
The inner magnetic fields of the sun is then weakened and solar activities are slowed down because magnetic moments of neutron and positron are opposite to that of proton and electron.
太阳的质子和电子的入射流,受到地球磁场的复杂作用。
The incoming streams of solar protons and electrons are affected by the earths magnetic field in a complicated way.
引发单粒子翻转的空间高能带电粒子环境包括银河宇宙线,太阳宇宙线和地球辐射带中的高能质子及重离子。
The space energetic particle environment inducing SEU includes galactic cosmic ray, solar cosmic ray and high-energy trapped protons and heavy ions.
起源号带回的样品,仅仅包含太阳的质子和原子,不会给地球带来任何危害。
The Genesis sample, consisting of protons and atoms from the Sun, does not pose any risk to the Earth.
细小的原子核内含不带电荷的中子及带正电荷的质子,而带负电荷的电子则沿轨道环绕原子核运行,情况就好像行星环绕太阳运行一样。
The nucleus consists of uncharged neutrons and positively charged protons. negatively charged electrons travel around the nucleus in their orbits, similar to the way planets moving around the sun.
通过空间环境地面模拟实验方法,研究了低能质子辐照及其与热循环效应协同作用下背场硅太阳电池电性能的变化。
The Change in electric properties of back-field silicon solar cell was investigated under the proton irradiation followed by thermo - cycling by means of ground-based simulation for space environment.
当这颗彗星靠近太阳的时候它就开始发光因为电荷云层(electron cloud)被太阳的质子风(proton wind)激活。
When the comet approaches the sun, it begins to glow because the electron cloud is energized by the sun's proton wind.
当这颗彗星靠近太阳的时候它就开始发光因为电荷云层(electron cloud)被太阳的质子风(proton wind)激活。
When the comet approaches the sun, it begins to glow because the electron cloud is energized by the sun's proton wind.
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