由玻尔的理论发展而来的现代量子物理学认为原子核外电子的可能状态是不连续的,因此各状态对应能量也是不连续的。这些能量值就是能级。能级是用来表达在一定能层上(K、L、M、N、O、P、Q)而又具有一定形状的电子云的电子。
... electronic inverter 电子逆变器(直流变交流) electronic level 电子能级 electronic level control 信号电平电子控制 ...
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... absorbed energy value 吸收能值 estimated net energy value 估计净能值 electron energy value 电子能级 ...
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电子能级结构 electronic energy level structure
正电子深能级瞬态谱 PDLTS
电子发描深能级瞬态谱 SDLTS
电子量子井能级 quantum well states
电子扫描深能级瞬态谱 SDLTS
价电子平均能级指数 Index of average energy level for valence electron
材质中电子能级和振转能级决定光谱的选择性。
The paper describes that electronic and rotating-vibration energy levels in materials decide spectral selectivity.
电子能级间距还敏感地依赖于角频率并随角频率的增大而增大。
The energy spacing between energy levels of electron is also sensitively dependent on the angular frequency and will increase with the increases in it.
电声相互作用对电子能级的修正导致光吸收系数峰值向高能方向偏移。
Furthermore, the correction of electron-phonon interaction effect on the energies of the electron makes the peak shift to the aspect of the high energy.
The formula tells us or absorbed based on the energy difference between the two levels that we're going between, that the electron is transitioning between.
这些公式告诉我们,或发出的光的,频率大小,是基于,电子转移的,两个能级,之间的能量差。
So, just looking at putting in the electrons, filling up the energy diagram here, we should be able to see a little bit why this is happening.
那么,仅仅通过观察这些电子的位置,在能级图上如何填充,我们应该就可以看出一点端倪。
This energy level diagram helps us understand the relationship between electron filling and bond strength.
能级图能帮助我们,理解电子填充,和键强的关系。
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