如果我们再知道晶格振动频率。
晶格振动频率,总是不一样的。
The lattice vibrational frequencies aren't the same any more.
对于晶格振动通常是这样。
晶格振动的观察主要集中在铁电相。
The observations of lattice vibrations are mainly on the ferroelectric phase.
就是晶格振动。
第二篇《硼酸盐晶体的晶格振动光谱研究》。
The second part deals with the study of vibrational spectra of borate crystals.
分析了超晶格的晶格振动性质及其热输运机理。
The vibrational properties and thermal transport mechanisms are discussed.
这种晶格振动的异常行为,是超导转变的前驱效应。
Such anomalous behavior is thought to be a precursor effect of superconductivity.
分析了含杂质晶格振动模频率相对于完整晶格振动模频率的变化。
The local mode frequency and the local vibration are also analyzed particularly.
对计算固体物质晶格振动、研究材料的热力学性质的方法做了简要的探讨。
The methods to calculate the lattice dynamic of solid state and thermodynamic properties of materials were discussed in this paper.
分析表明,同位素替代改变了晶格振动的频谱,对无辐射跃迁产生很大的影响。
It has been shown that the isotope substitution changes the spectrum of lattice vibration, and brings forth a great influence on the non-radiative transition.
一维单原子链晶格振动与均匀杆自由纵振动的运动方程在数学上存在内在的联系。
The equation of lattice vibration of one-dimensional monatomic lattice and the equation of longitudinal vibration of a uniform bar are discussed.
本文分析了氮化硼纳米管的结构对称性,并对其晶格振动模的对称性进行了分类。
In this paper, we analyse the structure of single wall boron nitride nanotubes and classify the vibration of the crystal lattice.
编制了氯化钠型结构各种晶体的晶格振动通用程序;它适用于循环或自由边界条件。
The common program, which can calculate the lattice vibration for various crystals with NaCl structure type, has been made and it is applicable to cyclic or free boundary condition.
以一维单原子链为例,对晶格振动的行波解和简正坐标进行了分析和讨论,给出了一种新的格波解。
The plane wave solutions and ortho coordinates of lattice vibration are analyzed. A new solution is given.
将均匀杆自由纵振动运动方程中对空间的偏导数用差商代替,就得到一维单原子链晶格振动的运动方程。
Raplacing the spatial derivatives by spatial differences in the equation of the latter, we get the equation of the former.
主要研究了一维单原子链中间隙式杂质引起的晶格振动图像,分析了杂质质量和恢复力系数对振动模的影响。
The picture of the lattice vibration mode for one-dimensional monatomic chain induced by an interstitial impurity is studied mainly.
从理论上对单脉冲放电通道的等离子体振荡特性进行了分析,发现其振荡频谱包含了金属晶格振动的本征频率。
The plasma oscillation spectrum of electrical discharge channel is analyzed, and the eigenfrequency of metal crystal lattice vibration is discovered in the spectrum.
因为晶格振动的波在达到界面时会被反射,所以镜面反射边界条件与循环边界条件相比更符合晶格振动的特点。
Lattice wave will be reflected when it reaches the boundary so that the reflecting boundary condition is more reasonable than cyclic boundary.
本课程检验了固体中的电子以及晶格振动的经典和量子模型,重点强调于弹性性质,电子输运过程和热容的物理模型。
This course examines classical and quantum models of electrons and lattice vibrations in solids, emphasizing physical models for elastic properties, electronic transport, and heat capacity.
本课程考察了固体中的电子以及晶格振动的经典和量子模型,重点考察了弹性性质,电子输运过程和热容的物理模型。
This course examines classical and quantum models of electrons and lattice vibrations in solids, emphasizing physical models for elastic properties, electronic transport, and heat capacity.
那就是晶格点阵的振动数。
不仅是分子的振动,也有晶格的振动。
And not only molecular vibrations, but vibrations of a crystal lattice.
晶格有大量的振动能级。
不过,它的能量足以引发电子产生振动—特别是那些金属晶格内的自由漂浮电子。
It is, however, powerful enough to set electrons vibrating-particularly those electrons already floating free inside a metallic crystal lattice.
现在允许振动来到以太皮肤,进入皮肤上的再生脉轮及以上的提升晶格层。
Now allow the vibrations to come up into the etheric skin and into the regeneration chakras that sit just above the skin as well as the ascension grid work beyond this.
现在允许振动来到以太皮肤,进入皮肤上的再生脉轮及以上的提升晶格层。
Now allow the vibrations to come up into the etheric skin and into the regeneration chakras that sit just above the skin as well as the ascension grid work beyond this.
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