用过在中微子射线和反中微子射线之间转换,诺娃也许能够观测到这点区别。
By switching its beam between neutrinos and antineutrinos, NOVA may be able to glimpse such differences.
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.
如果在中微子和反中微子之间切换光束,那么NOVA可能就会发现这种差异。
By switching its beam between neutrinos and antineutrinos, NOVA may be able to glimpse such differences.
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?
日本的KamLAND探测器可以检测衰变的铀和钍产生的反中微子,这两种元素产生了地球放射热量中的很大部分。
The KamLAND detector in Japan can detect anti-neutrinos generated by the decay of uranium and thorium-the two elements responsible for most of the radioactive heating of the Earth.
一个更加灵敏的后续试验可能会在探索中微子和反中微子方面更加全面,试验用的设备——长基线中微子设备(LBNF)计划于2022年完成。
And an even more sensitive successor experiment, the Long-Baseline Neutrino Facility (LBNF), planned to be finished in 2022, would be able to explore them more comprehensively.
一个更加灵敏的后续试验可能会在探索中微子和反中微子方面更加全面,试验用的设备——长基线中微子设备(LBNF)计划于2022年完成。
And an even more sensitive successor experiment, the Long-Baseline Neutrino Facility (LBNF), planned to be finished in 2022, would be able to explore them more comprehensively.
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