能量量子化

我们已经有了关于能量量子化的直接实验证据。

We have direct experimental evidence for the quantization of energy .

他把能量量子化的概念用于氢原子。

He applied the concept of quantization of energy to the hydrogen atom .

像在箱中粒子那样，边界条件迫使我们使能量量子化。

As in the particle in a box , it is the boundary conditions that force us to quantize the energy .

围绕一维谐振子讨论了如何将哈密顿算符对角化、引进的是玻色算符还是费米算符的问题，并分析了能量量子化的原因及能量子与声子的区别。

The origin of energy quantum and the difference between energy quantum and phonons are also analyzed .

本文就一维相对论振子的能量量子化问题进行了讨论，得到了和非相对论振子不同的量子化能量。

This paper discusses the problem of energy quantization of one-dimensional relativistic vibrator and describes that this kind of quan-tization energy is different from that of non-relativistic vibrator .

强磁场可以改变一个系统的物理状态（粒子的运动和能量量子化），而使其引起科研工作者的浓厚兴趣。

However , high magnetic field can alter a systematic physical state , namely particle movement and energy quantization , which individuate high magnetic field from other extreme condition , for example , low temperature .

注意力集中于电子系统的能量量子化以及二维特性。专题的选择依据我们的物理兴趣和实验工作所达到的水平。

The focus is on properties arising from the energy quantization and the resulting two-dimensionality of the electron system The selection of topics is based on the degree of physical interest and the level of experimental activities .

根据量子理论，分子和原子具有的能量是量子化的。

The energy that atoms and molecules can possess according to quantum theory is quantized .

但重要的是这些能量是量子化的。

But the really important point here is that they 're quantized .

对氢原子或类氢离子中电子的椭圆轨道和能量及其量子化等给出了一个简明、完善的讨论。

Of hydrogen atom or hydrogen like ions , the elliptic orbit , energy , orbital velocity , period and quantization are discussed in brief and perfection .

这一体系的双波描述给出类似于经典力学的结果，但粒子能量取量子化分立值。

The double-wave description of the system leads to the results that are similar to that of classical mechanics but the energies of particles take quantized discrete values .

电子能量的量子化使得量子点（特别是自组织量子点）很适合作激光器的激活层，并有可能使得基于量子点的激光器能够在更高的温度和更低的注入电流下工作。

The strong quantization of electron energy , with parameters suitable for laser action , particularly in the so-called self-assembled QDs , will probably allow QD-based lasers to be able to work at higher temperatures and at lower injection currents .

量子点中载流子的运动受到三维限制，电子在三个维度上的能量都是量子化的。

Carriers in quantum dots is restrained in the three dimensions and the energy of electrons in quantum dots is quantized .