正电子和反质子组合在一起,既为反原子。由CERN(欧洲核子研究中心)的科学家制造出第一个反质子。共制造了九个反氢原子,每一个的生命只有40纳秒。
...又碓认了「反物质的碓存在,也就是说,我们宇宙中所有的「粒子,均有其「反粒子,后来还以人工科技制造出「反原子(antiatom),「反原子合成的物质即为「反物质,其实,这些「反粒子只是「电荷(charge)与「自旋(spin)方向与组成我们宇宙的「粒子相...
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他们的首次实验将包含用微波对捕获的反原子进行微移。
Their first experiment will involve nudging the trapped anti-atoms with microwaves.
迄今为止,只有反原子还没有得到全面的研究。
What has not been available for study until recently, however, is entire anti-atoms.
如果这些微波的频率恰到好处,他们将会使这些反原子产生自旋翻转。
If the frequency of these microwaves is just right, they will flip an anti-atom's spin.
It turns out that the antibonding orbital is a little bit higher from the atomic orbital level than the bonding orbital is lower.
这证明了,反键轨道,比原子轨道高,成键轨道比原子轨道第。
So we'll start to look at molecules and we'll see if we take two atoms and we fill in our molecular orbital and it turns out that they have more anti-bonding orbitals than bonding, that's -- a diatomic molecule we'll never see.
我们要看开始看一看分子,并且我们会发现如果我们,取两个原子并且填入分子轨道,结果是它们的反键轨道,比成键轨道更多,这就是-一个我们不会看到的二元子分子。
So we would label our anti-bonding orbital higher in energy than our 1 s atomic orbitals.
我们应该把反键轨道标在,高于1s原子轨道能量的地方。
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