文章总结了中微子振荡实验的历史和现状。
The history and status of neutrino oscillation experiments are summarized.
如果中微子有静止质量,将表现为中微子振荡。
If neutrinos are massive, there will be neutrino oscillation.
不应该存在一些独特的性质如所谓中微子振荡现象。
It should not have some special properties such as neutrino oscillations.
这些结果表明存在中微子振荡,即中微子具有质量。
These results imply that there are neutrino oscillations, this means that neutrino has mass.
这些结果表明存在中微子振荡,即中微子具有质量。
Several experimental results on solar neutrino missing and on atmospheric muon neutrino missing are described.
我们讨论的第二个问题是量子场论中的中微子振荡理论。
The second topic is about neutrino oscillation theory in quantum field theory(QFT).
在本论文,我们主要讨论了中微子振荡和中微子质量三个不同方面的问题。
The main parts of this dissertation include three topics on different aspects of neutrino oscillation and neutrino masses.
中微子振荡的复杂程度使人们认为有可能中微子振荡与其反粒子(即反中微子)是不同的。
This level of complexity opens the possibility that the oscillations of neutrinos and their anti-particles (called anti-neutrinos) could be different.
JUNO或RENO-50实验中地球物质效应对反应堆反中微子振荡的影响:多小才算小?
Terrestrial matter effects on reactor antineutrino oscillations at JUNO or RENO-50: how small is small?
但是振荡的细节仍然不完整,这就是费米实验室中微子射线介入的点。
But the details of oscillation remain incomplete, which is where Fermilab's neutrino beam comes in.
但是振荡过程的细节仍旧有待研究,这也是费米试验室中微子光束存在的原因。
But the details of oscillation remain incomplete, which is where Fermilab's neutrino beam comes in.
振荡表明中微子是随着时间变化的。
振荡表明中微子是随着时间变化的。
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