| 1. | The main factors which affect qw ld thermal characteristics
影响量子阱激光器热特性的主要因素 |
| 2. | Exciton decay in zncdse qw cdse qd
量子点复合结构中的激子衰减 |
| 3. | Investigation on impeller dynamic balance technology for qw submersible drainage pump
潜水排污泵叶轮动平衡工艺探讨 |
| 4. | Cycling around the circuit model of qw laser , main works done are mentioned as follow : 1
围绕以对此类激光器的定模为中心,本文的工作主要如下: 1 |
| 5. | 4 . the effect of zno buffer on the quality of znse , znte and their qw structures was discussed
4 、解释了zno缓冲层对提高生长材料质量的作用机理。 |
| 6. | Generous donations from dr qw lee and dr simon li will enable the founding of two named chairs in law
中大法律学院亦得利国伟博士及李福善博士慷慨捐款支持,以设立两个法律学讲座教授。 |
| 7. | The redshift of the photoluminescence ( pl ) peak with increasing the well width indicates that zncdse / znse and zncdte / znte qw structures were obtained
Zncdse znse量子阱材料的pl谱得到了520nm附近较强的发光, rrs谱获得多达3级的共振谱。 |
| 8. | The surface of zncdse / znse qw grown on zno buffered si substrate is free of micro - cracks that is observed on the surface of the sample deposited directly on si substrate
Zncdte znte量子阱结构的表面没有微裂纹,其发光强度较直接在si衬底上生长的zncdte znte量子阱有很大提高。 |
| 9. | The wavelength of pump light in white light mode is 400nm . 2 . the excitonic tunneling from cdznse qw to cdse quantum dots under resonant excitation was investigated using femtosecond pump - probe technology on the cdznse quantum well / cdse quantum dots structure
用飞秒脉冲泵浦-探测方法研究了cdse量子点znse cdznse量子阱结构在对cdznse量子阱的激子共振激发条件下激子在量子阱与量子点之间的隧穿。 |
