1) interface polaron
界面极化子
1.
In this paper, EPMA approximation was introduced for the interface polaron of two_mode behavior ternary mixed crystal.
采用EPMA 近似法, 研究了双模型三元混晶界面极化子的性质, 计算了ZnSxSe1 - x(GaAs) 和AlxGa1 - xAs(GaSb) 材料中界面光声子与电子的耦合随x 的变化。
2.
Taking higher frequency branch into account,The interface polaron of one mode behavior ternary mixed crystals was studied.
仅考虑高频分支对极化子的贡献,研究了单模型三元混晶界面极化子的性质。
2) interface magnetopolaron
界面磁极化子
1.
Taking into account the interaction of the electron with both LO phonons and IO phonons,we further investigated the properties of the interface magnetopolaron in polarpolar crystals at zero temperature and obtained explicit formulas for the energy level,renormalized cyclotron frequency and self-trapping energy.
计入电子与纵光学(LO)声子和界面光学(IO)声子的互作用,进一步研究了界面磁极化子的性质,并给出了磁极化子的能级,重整化回旋质量和自陷能的表达式。
3) interface polarization
界面极化
1.
Proper interface polarization of the material will enlarge.
合理利用材料的界面极化,可使材料的吸收频带大大加宽,提高材料的吸波性能。
4) interfacial polarization
界面极化
1.
By combining DLVO theory with the properties of chitosan microsphere, a suitable electrokinetic model was proposed, and the microscopic mechanism of interfacial polarization relaxation for concentrated suspensions was analyzed.
结合DLVO理论和壳聚糖微球的特点,提出了适合实验数据的电动力学模型,并分析了浓厚分散系的界面极化弛豫的微观机制。
2.
Surface tension, surface polarity and interfacial polarization are strongly related to the surface statu.
测试结果表明 ,粒子的表面特性对液体的电流变效应影响巨大 ,表面极性和界面极化与分散粒子的表面状态有密切关系 。
3.
Surface tension, surface polarity and theinterfacial polarization are strongly relate.
测试结果表明,粒子的表面特性对液体的电流变效应影响巨大,表面极性和界面极化与分散粒子的表面状态有密切关系。
5) Interface Phonon Polariton Modes
界面声子-极化激元模
6) interface dipole
界面偶极子
补充资料:极化子
见固体中的元激发。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条