phonon
美 ['foʊnɒn]英 ['fəʊnɒn]
- n.【物】声子
- 网络声子能量;晶格振动;声罪致讨
复数:phonons
phononphonon
声子
Gillian 的家 - gillianting - 网易博客 ... 量子 quantum 声子 phonon 光子 photon ...
声子能量
...化学药液,利用超音波(Megasonic)震荡,其声子能量(Phonon)刺穿微粒表面的 J E I N .
晶格振动
这种相吸须靠晶格振动(phonon)作媒介才能产生,这在常温下不可能,因常温下晶格因热而振动,一下子就会抵消第一个电子 …
声罪致讨
在线字典:声字的含义、... ... [make public;disclose] 张扬 [phonon] 声罪致讨 [condemn;denounce] 宣布对方的罪状,进行公开 …
能量量子
子交换了一个转动或振动能量量子(phonon). [ 检举 ] 拉曼散射因而得以拿来测定各种物质的成分 参考资料 自己 +我现在做的专 …
1
Thomas believes that we may be sitting on the brink of a phonon-driven technological revolution as well.
托马斯认为,我们也有可能正处在由声子推动的技术革命的边缘。
2
The nonlinear lattice dynamics and an expression of nonlinear macroscopic polarization are derived in terms of optic phonon modes.
导出了用简正坐标即声子模式所表达的非线性晶格动力学和非线性宏观极化。
3
Then, we investigate the spin-current and its shot-noise spectrum in a single-molecule quantum dot coupled with a local phonon mode.
然后我们研究了与局域声子模耦合的单分子和量子点的输运特性,重点关注声子效应对自旋流及其噪声谱的影响。
4
That's not to say that phonon information processing is a lost cause.
这不是说绳子信息处理是不靠谱的。
5
The calculated results show that a new stable ground state can be developed on account of spin-phonon coupling.
计算结果表明,自旋-声子耦合相互作用可以使系统建立一个新的稳定基态。
6
With two types of the phonon scattering mechanisms considered comprehensively, the thermal conductivity of YAG ceramic is achieved.
综合考虑了两种声子散射机制,得到了YAG陶瓷的热导率。
7
On the basis of this result, the phonon structure is studied, along with calculation of the energy levels and state densities of phonons.
以此为基础,研究了简立方纳米晶体颗粒的声子结构,计算了其声子能级和声子态密度。
8
Nonetheless, the emerging discipline of phonon engineering could lead to devices in which phonons themselves are the information carriers.
不过,逐渐浮现的一个新学科,声子工程,可能会带来使用声子本身携带信息的设备。
9
A magnon-phonon interaction model is built in two-dimensional triangular insulating ferromagnetic.
在二维绝缘铁磁系统基础上建立了一个磁振子声子相互作用模型。
10
The damping of excited states that we depict in this paper due to electron-phonon interaction of polymer varies with the excited states.
本文计算了高分子中电子-声子相互作用所引起的激发阻尼,它随激发态而变化。
11
A magnon-phonon interaction model is developed for a two dimensional square insulating ferromagnet.
在二维正方绝缘铁磁系统基础上建立了一个磁振子-声子相互作用模型。
12
The character of sound field is the statistical behavior of a large number of phonon.
声场的特性就是大量声子的统计行为。
13
These phenomena are related with non-radiative transitions originated by photon-phonon interactions.
这些现象均和光子-声子相互作用引起的非辐射跃迁相关。
14
With the strength of the electron-phonon interaction increasing, the occupation probability of phonon peaks increases. 2.
随着电子-声子耦合强度的增加,声子峰的数量和高度增加。
15
Phonon behaviour in a solid under everyday conditions is much more complex.
日常固体中的声子的行为要复杂得多。
16
Uncertainty Regions for the Vacuum, Number, Coherent, and Squeezed Phonon States.
数量态、相干态及压缩光子态的不确定区域。
17
That is, ionic modifying do not enhance the thermal conductivity properties of electron or phonon conduction.
也就是说,离子改质对电子或声子传导的导热性质并无加乘效果。
18
To make crystal lattice oscillatory quanta is changed, introduce phonon idea.
为了使晶格振动量子化,引进声子概念。
19
In low temperature region, it is necessary to add the quantum correction to the kinetic energy computation of phonon.
在低温区时,需对能量输运粒子的动能计算进行量子修正;
20
the transverse optical phonon frequency and line width are, however, the same as in the bulk.
横向光学声子频率和线宽然而,一样的大部分。
21
The main works in this paper are as follows: (1) Firstly, the electron-phonon scattering in thin cylindrical shell is discussed.
本文的工作主要有以下三个部分:(1)首先在薄圆柱型纳米管模型中讨论了热电子效应。
22
The phonon dispersion relations of magnesium aluminium spinel MgAl2O4are calculated by using frozen phonon method.
本文利用冻结声子法计算了镁铝尖晶石的声子色散关系和常压下的各种热力学性质。
23
In anisotropy crystal, effect of focusing of meeting occurrence phonon.
在各向异性晶体中,会出现声子聚焦效应。
24
The altered vibrations, called phonons, cause the electrons to pair up; so coupled, they can then move freely through the atomic lattice.
这种调整过的振动称为声子(phonon),它会使电子成对,进而让这些电子对自由进出原子晶格。
25
We pay special attention to the influence of the strength of electron-phonon coupling on the shot noise.
我们特别注意了电-声子耦合强度的变化对量子点系统噪声的影响。
26
There is weak coupling between the electron and SA phonon but strong coupling between the electron and SO phonon for many polar crystals .
有些极性晶体,电子与表面光学声子(SO)耦合强,与表面声学声子(SA)耦合弱。
27
It is important to reach the phonon spectra for fabrication and purification of single-wall carbon nanotubes (SWNTs).
而碳纳米管比热的计算却依赖于其声子振动谱和声子态密度。
28
The Effects of the Electron-Phonon Interaction on the Energy of a Polaron in Nitride Parabolic Quantum Well
氮化物抛物量子阱中电子-声子相互作用对极化子能量的影响
29
Effective Mass and Mean Number of Optical Phonon of Weak-coupling Polaron in a Parabolic Quantum Wire
抛物量子线中弱耦合极化子的有效质量和光学声子平均数
30
Influence of ternary mixed crystal defect layer on the localized interface optical-phonon modes in a finite superlattice
三元合金缺陷层对有限超晶格中局域界面光学声子模的影响