1) wurtzite quantum well
纤锌矿量子阱
2) wurtzite quantum well wire
纤锌矿量子阱线
1.
Based on the dielectric continuum model and Loudon’s uniaxial crystal model,quasi-confined (QC) optical phonon modes and electron-QC phonon coupling functions in quasi-one-dimensional (Q1D) wurtzite quantum well wires (QWWs) are deduced and analyzed.
对一个Al N/GaN/Al N纤锌矿量子阱线进行了数值计算。
3) strained zinc-blende quantum well
应变闪锌矿量子阱
4) wurtzite-type
纤维锌矿
1.
It was found that under experimental conditions, these anions have no influence on crystallographic forms of ZnS; Sphalerite-type CdS was obtained from nitrate or sulphate solution and wurtzite-type CdS was obtained from chloride solution.
结果表明,SO2-4、NO-3和Cl-对ZnS粉末晶型基本上没有影响;而在NO-3、SO2-4体系中得到闪锌矿型CdS粉末,在Cl-体系中,得到纤维锌矿结构CdS粉末。
5) wurtzite
[英]['wə:tsait] [美]['wɚrt,saɪt]
纤锌矿
1.
XRD pattern of the powder indicates that the hexagonal wurtzite ZnO nanocrystals can be obtained when the precursor calcinated at 300℃for 2h.
结果表明:所得前驱体在253℃左右分解为六方纤锌矿型纳米ZnO,颗粒大小约为15~20nm,粒径分布窄,基本无团聚,粉体的比表面积为64。
2.
The energy levels of bound polaron in the wurtzite nitride infinite quantum well are studied by using Lee-Low-Pines(LLP) transformation method.
采用改进的LLP变分方法,研究纤锌矿氮化物无限深量子阱材料中束缚极化子基态能量和基态结合能、第一激发态能量和第一激发态结合能、第一激发态到基态的跃迁能量等物理量随着量子阱宽度的变化关系。
3.
Based on the dielectric continuum phonon model, uniaxial model and Lei-Ting balance equation, the electronic mobility parallel to the interfaces for wurtzite (WZ) and zincblende (ZB) AlN/GaN quantum-well (QW) heterostructures is discussed by taking the influence of confined and interface phonon modes into account.
本文在介电连续模型和单轴模型的框架下,采用雷-丁平衡方程理论,考虑有限深量子阱中界面光学声子模和局域体光学声子模的影响,分别计算了纤锌矿型和闪锌矿型AlN/GaN量子阱中电子平行于异质结界面方向的迁移率,并给出迁移率随阱宽及温度的变化关系。
6) erythrozincite
锰纤锌矿
补充资料:纤锌矿
分子式:
CAS号:
性质:主要成分ZnS。浅黄色、褐色或黑色(含铁越多,颜色越深)。条痕由无色至褐色。金刚光泽。六方晶系。单晶体成尖锥状,有的成短柱状或板状。集合体成纤维放射状。解理完全。密度4.0~4.3g/cm3。莫氏硬度3.5~4.0。常与闪锌矿共生。不溶于水,溶于酸。用于涂料、油漆、塑料等方面。
CAS号:
性质:主要成分ZnS。浅黄色、褐色或黑色(含铁越多,颜色越深)。条痕由无色至褐色。金刚光泽。六方晶系。单晶体成尖锥状,有的成短柱状或板状。集合体成纤维放射状。解理完全。密度4.0~4.3g/cm3。莫氏硬度3.5~4.0。常与闪锌矿共生。不溶于水,溶于酸。用于涂料、油漆、塑料等方面。
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