如果我来看那些氮的振动能级。
晶格有大量的振动能级。
这种光子会激发OH分子的较高振动能级。
Such photons will excite the higher vibrational levels of the OH molecule.
这些是振动能级。
这是因为它比你通常使用的振动在更高的振动能级。
It is because it exists at a much higher vibrational level than you normally use.
现在画分子振动能级,这不一定是这样,我们假设这是双原子分子。
So now I'm going to draw vibrational energy levels inside the molecule. Let's imagine, it wouldn't need to be this, ut let's imagine it's just diatomic molecules.
所以,你可以轻松地从一个路径切换到另一个,但只能在同一振动能级。
So you can easily switch from one path to another, but only in the same vibrational level.
提出了利用差分法计算双原子分子纯振动能级和振-转能级的具体方法。
The difference method for solving pure vibrational energy level and vibration-rotational energy level is proposed in this paper.
借助于电离流时间衰减曲线,测量得出了上述三条谱线对应的振动能级的动力学参数。
With the measurement of ion current decay curves of the three features, dynamic parameters of them were obtained.
此外,还用该势能面计算了OCS同位素分子的振动能级,计算结果与实验值也十分吻合。
The vibrational energy levels for some isotopomers of OCS are also investigated using the optimized potential and in excellent agreement with the observed values.
因此,提升你的振动能级及情绪的退出速度而不至于深陷其中,这样做你会发现如写信等引导精力的更好方法。
Thus raising your vibrational level and exiting the emotion so as to not get caught into it, by doing so you will find better ways to channel this energy such as writing.
拉曼光谱是一种分子散射光谱,通过与分子相互作用的光子产生的表征分子振动或转动能级差的特征频移,来反映分子结构或成分的信息。
Raman spectrum is a kind of molecule scattering spectroscopy, which is characterized by the frequency excursion that caused by interactions of molecule and photon to show the information of molecule.
拉曼光谱是一种分子散射光谱,通过与分子相互作用的光子产生的表征分子振动或转动能级差的特征频移,来反映分子结构或成分的信息。
Raman spectrum is a kind of molecule scattering spectroscopy, which is characterized by the frequency excursion that caused by interactions of molecule and photon to show the information of molecule.
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