Cosmic rays and X-rays produce energetic electrons by ionization.
宇宙射线和X射线因其电离作用产生高能电子。
X-rays were produced when energetic electrons hit a solid object.
射线是在高能电子击中固体靶时产生的。
Cosmic rays and X - rays produce energetic electrons by ionization.
宇宙射线和x射线因其电离作用产生高能电子。
The various radiation phenomena in solar flare show that great number of energetic electrons can be created in such explosive events.
太阳耀斑中的各种辐射现象说明在这类爆发事件中有相当强的高能量的电子产生。
Energetic electrons and positrons (antielectrons) move out from an inner X-ray ring, which marks a shockwave between different forms of matter, to produce an extended X-ray glow.
高能电子和正电子从一个内部的X射线环中向外运动,在不同形式的物质中标记出了一个冲击波,产生了一个膨胀的X射线光。
The image also contains several mysteriousX-ray filaments, some of which may be huge magnetic structuresinteracting with streams of energetic electrons produced by rapidlyspinning neutron stars.
这幅图像中还包含了几个神秘的X-射线片断,它们中的一些可能是因为巨大的磁场结构和强电子流相互作用而产生了快速旋转的中子星。
This generator drives an energetic wind of electrons and ions away from the neutron star.
这个发电机制造出强劲的能量风,把电子和离子吹离中子星。
Electrons can jiggle and wiggle in a more energetic manner.
原子能以更有力的方式旋转与振动。
The most damaging radiation are gamma rays and x-rays; energetic alpha rays (streams of helium nuclei) and beta rays (electrons) can also damage cells.
最具破坏力的辐射是伽马射线和X射线;能量强大的阿尔法射线(氦核能量流)和贝塔射线(电子流)也可以破坏细胞组织。
The silicon absorbs sunlight and passes energetic, negatively charged electrons and positively charged electron vacancies to the catalysts on opposite sides that use them to make H2 and O2.
硅可以吸收光能,传导带正电荷和带负电荷的空位子到催化剂中,从而催化产生氢气和氧气。
There exists strong magnetic field and abundant energetic particles in active coronal region, in magnetic field the extremely relativistic electrons will produce synchrotron radiation.
太阳日冕中存在较强的磁场和大量的高能电子,在磁场中极端相对论电子将产生同步加速辐射。
An aurora is a bright glow that occurs in the night sky when energetic particles, mostly electrons, enter the Earth's upper atmosphere from the magnetosphere.
极光出现于夜空中,是高能粒子,主要是电子,从地球的磁层进入高层大气时而产生的明亮光芒。
The problems on diagnostic to flare models, energetic particles propagation, and the low energy cut-off of the non-thermal electrons are discussed.
对耀斑的诊断,高能粒子的传播,以及对非热电子谱的低能截止等问题进行了讨论。
The bright star AE Aurigae, visible near the nebula center, is so hot it is blue, emitting light so energetic it knocks electrons away from surrounding gas.
御夫座AE星非常地炽热,因此所发出的蓝色星光,能把周围物质的电子撞飞出去。
The bright star AE Aurigae, visible near the nebula center, is so hot it is blue, emitting light so energetic it knocks electrons away from surrounding gas.
御夫座AE星非常地炽热,因此所发出的蓝色星光,能把周围物质的电子撞飞出去。
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