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- thermonuclear microexplosion 热核微爆炸
- Thermonuclear weapons have high destructive power. 热核武器拥有惊人的杀伤力。
- A nuclear fusion is a thermonuclear reaction. 核聚变是一种热核反应。
- They have nothing to do with the design of thermonuclear warhead. 他们]与热核武器弹头的设计毫无关系。
- The thermonuclear reactions of the sun energize the human body. 太阳的热核反应给人类以能量。
- Thermonuclear reactions are, quite literally, nuclear burning. 热核反应,通俗地说,就是原子核燃烧。
- Thermonuclear flames can spread in the same two ways. 星球内的热核火焰可同样以这两种方式传播。
- Nothing less than a fission bomb can ignite a thermonuclear reaction. 威力比一个裂变炸弹小的任何东西都不能点燃热核反应。
- Sayid: The core itseld is a thermonuclear weapon, it'll be more than enough. 它的内核本身就是个热核武器,威力绰绰有余。
- It's a heavy element produced in thermonuclear explosions of supernovae. 这是一个重元素,产生于超新星的热核爆炸。
- Both theoretical and experimental research of microexplosion of emulsified fuels dropletare included in this paper. 本文分析了微爆研究中存在的问题,分别用实验与理论方法研究了乳化油滴的微爆规律。
- Any configuration of magnetic fields used to contain a plasma during controlled thermonuclear reactions. 控制高热原子核反应过程中用来放血浆的磁场的结构。
- It will probably have to be with the help of the plentiful deuterium in the ocean, used as thermonuclear fuel. 这必须借助于把海洋中丰富的氘用作热核燃料。
- Systems of this sort are being used in an effort to produce controlled thermonuclear fusion reactions. 这类系统正用于产生受控热核聚变反应的探索。
- We did work in thermonuclear energy, laser beam refraction, hydrogen molecule development, and heavy-water computer data. 我们从事过热核能、激光束折射,氛分子发展和电脑重水数据的研究工作。
- We did work in thermonuclear energy,laser beam refraction,hydrogen molecule development,and heavy-water computer data. 我们从事过热核能、激光束折射,氛分子发展和电脑重水数据的研究工作。
- Astronomers ascribed them to thermonuclear fusion of hydrogen or helium or to the sudden accretion of matter onto the star. 天文学家因此可将其归因于氢或氦的热核融合反应,或是有物质突然被星体吸附而产生的。
- In this age of thermonuclear technology, neither view can assure man's preservation. 在当今的热核技术时代,这两种观点都不足以保障人类的生存。
- It is worth emphasizing that the nuclear reactions occurring in the interior of the sun and stars are thermonuclear. 值得强调指出,发生在太阳和恒星内部的核反应是热核反应。
- Temperatures and densities never climb high enough to ignite disruptive thermonuclear burning. 其温度及密度永远无法攀升到足以点燃具破坏性的热核燃烧。
