Nuclear energy comes for a simple reason. The most stable nucleus is iron, right in the middle of the periodic table.
产生核能的原因很简单,最稳定的是铁原子核,它就在元素周期表中央,它是一个中型原子核。
A nucleus that large cannot be stable, but it might be possible to assemble one next to a vacuum for long enough to observe the decay of the vacuum.
这么大的原子核不可能是稳定的,但在足够长的时间内,在真空附近组装一个原子核以观察真空的衰变是可能的。
In search of a more stable way to store quantum information, Awschalom has now figured out how to link the spin of a electron to the spin of the nearby nitrogen's nucleus.
为了寻找更稳定的方法来储存量子信息,Awschalom已经计算出一个电子的旋转与附近氮原子核旋转的的联系。
The results show that the second and third excited states of 12B are one-neutron halo states. It is the second nucleus to be found with new halo states near the p stable line.
结果显示12B第二、三激发态为单中子晕核态,这是在B稳定线附近找到的第二个核新的晕核态。
The results show that the second and third excited states of 12B are one-neutron halo states. It is the second nucleus to be found with new halo states near the p stable line.
结果显示12B第二、三激发态为单中子晕核态,这是在B稳定线附近找到的第二个核新的晕核态。
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