It is very important that spectrum measurement of D-D and D-T fusion neutron in large scale Tokamak.
大、中型托卡马克在D - D和D - T运行条件下聚变中子能谱测量具有重要意义。
It also bodes ill for the prospect of fusion using helium-3, a rare helium isotope that is missing a neutron.
这也预示着,利用氦- 3这种缺少一个中子的稀有的氦同位素进行核聚变的前景很黯淡。
"This neutron star was born so hot that nuclear fusion happened on its surface, producing a carbon atmosphere just 10 centimetres thick."
这颗中子星产生时温度如此之高,其表面还在进行核子融合,从而产生了只有10厘米厚的碳大气层。
Helium-3 has one less neutron than regular helium (helium-4) and is also produced in the sun and almost as quickly consumed in fusion reactions as deuterium.
氦- 3比普通氦(氦- 4)少一个中子,并且同样在太阳里产生然后象氘一样在核聚变中迅速被消耗掉。
Most current fusion efforts look to combine two atoms of deuterium, a heavier version of hydrogen with an extra neutron.
最流行的聚变做法是将两个氘原子结合在一起——氘是带有一个额外的中子的重氢。
This neutron star was born so hot that nuclear fusion happened on its surface, producing a carbon atmosphere just 10 centimeters thick.
阿尔伯塔大学的天文学家克雷格.汉克在新闻稿中写道,“这颗中子星诞生时表面温度非常之高,以至于在它的表面也可以发生核聚变,并产生了大约10厘米厚的碳质云层。”
And that's the way you make your tritium. But fortunately, if you can do this fusion reaction, you've got a neutron, so you can make that happen.
幸运的是,如果你能够进行这个核融合反应,就会得到一个中子,所以你可以做到这一点。
Penumbral imaging has high sensitivity, which will be the main technical method of neutron imaging in inertial confinement fusion (ICF) experiments.
半影成像具有灵敏度高的特点,该技术是未来惯性约束聚变(ICF)中子成像的主要技术路线。
Every fusion reaction devours exactly one tritium ion and produces exactly one neutron.
每一个聚变反应会耗一个氚核并只产生一个中子。
The new concept of neutron detection can be used in some fusion experiments .
简要综述了中子探测的相关理论和中子探测对于材料的性能要求。
The new concept of neutron detection can be used in some fusion experiments .
简要综述了中子探测的相关理论和中子探测对于材料的性能要求。
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