n.中微子(neutrino的复数)
neutralize corrosion───中和腐蚀
calefaction condensate neutralizers───加热冷凝中和剂
neutrally stable───中性稳定
neutralization───n.[化学]中和;[化学]中和作用;中立状态
neutralist───n.中立主义者
neutrality───n.中立;中性;中立立场
carbon neutral───碳中和;碳平衡;碳中和的,碳平衡的(指不会增加空气中的二氧化碳总量)
gear lever to neutral───变速杆挂空档
shift to neutral───换到空档
neutralize cat urine───中和猫尿
Neutrinos can thus escape from regions of space where light and other kinds of electromagnetic radiation are blocked by matter.───因此,中微子可以从光和其他电磁辐射被物质阻挡的空间区域中逃逸出来。
Fortunately, a group of astrophysicists has proposed a means of detecting cosmic neutrinos by harnessing the mass of the ocean.───幸运的是,一些天体物理学家提出了一种通过控制海洋质量来探测宇宙中微子的方法。
Even a tiny mass means that neutrinos would outweigh all the universe's visible matter, because of their vast numbers.───因为数量巨大,即使是很小的质量也意味着中微子会超过宇宙中所有可见的物质。
Neutrinos are the only particles that seem to just spin anticlockwise.───而中微子是唯一似乎只会逆时针旋转的微粒子。
But how much of a delay between neutrinos and photons would we expect if the OPERA result applied?───但是,如果OPERA的结果适用,我们期望中微子和光子之间的延时能到多大程度?
You know, I'd love to hear more about how you intend to add neutrinos. Could we get a cup of coffee sometime?───我很想听你讲讲,怎样加入微中子。啥时候去喝杯咖啡吧?。
The point is to see if they are still muon-neutrinos when they arrive at Super-Kamiokande.───T2K实验的目的是看当它们到达超级神冈探测器的时候,是否仍然是缪子中微子。
The thinking goes that WIMPs are very heavy, yet like neutrinos they rarely bump into matter to produce a detectable signal.───理论认为,WIMP粒子非常重,但是又像中微子一样几乎不与其它物质发生相互作用,因此不能产生可观察的信号。
As the neutrinos emitted this radiation, they ought to have been losing a commensurate amount of energy.───由于中微子发出了辐射,它们应该失去相对应的能量。
Neutrinos are thought to weigh less than 20 eV, if anything.
That means the heavy neutrinos must decay into something far less massive, quite quickly.
Thus oscillating neutrinos must have mass; but massive neutrinos need not oscillate.
Interactions involving neutrinos are mediated by the weak interaction.
Massless electron neutrinos playing at being heavy tau neutrinos might help solve either or both.
The Opera experiment detects neutrinos as they strike 150, 000 "bricks" of photographic emulsion films interleaved with lead plates.
Then there are neutrinos, W and Z bosons, the electron-like muon and tau particles, and gluons—which hold quarks together in groups.
Only if neutrinos do have some mass, however small, can they oscillate from one type to another.
Every star is a copious source of neutrinos.