| 1. | Work on the research of microcavity semiconductor laser was summarized
在最后一章里概述了自己在半导体微腔激光器方面的研究工作。 |
| 2. | Temperature dependence of vacuum rabi splitting in a single quantum dot - semiconductor microcavity
半导体微腔中单量子点的真空拉比分裂的温度效应 |
| 3. | This paper introduces researching status of oled , the basic principle and application of microcavity
本文介绍了oled的研究现状、微腔的基本原理及它的应用。 |
| 4. | Traditional production methods of resonant cavity is very difficult for the manufacture of the microcavity
通过数值分析可知,光子晶体微谐振腔的品质因子非常高。 |
| 5. | This paper states design approach , computing process and result of microcavity organic light - emitting device ( moled )
论文论述了微腔有机发光器件( moled )的设计方法、计算过程和结果。 |
| 6. | In order to realize full color display and improve luminous efficiency , oled with microcavity is formed
为了实现有机发光的彩色显示、提高发光效率,将有机发光器件( oled )形成微腔结构。 |
| 7. | Ito glass is a rare transparent electrode , and ever was considered to be used in organic microcavity laser diodes
Ito玻璃是少有的透明注入电极之一,曾经被考虑用于微腔激光二极管注入电极。 |
| 8. | It is found that microcavity not only is a good way for full color display , but also affect optoelectronic industry deeply
从中可以看出,微腔不仅对于实现有机发光彩色显示是一个很好的方案,对整个光电子产业都具有深远的影响。 |
| 9. | Emissions from microcavitys made with organic materials with broad and sharp optical spectra were compared respectively , apparent microcavity effects appeared
发现了几种有机小分子蓝光激光染料,进行了溶液和薄膜状态下的受激发射表征。 |
| 10. | In the far from cutoff approximation the energies of empty cavity modes versus radii of three - dimension semiconductor microcavity are evaluated
摘要半导体微腔中腔模和激子模藕合形成腔极化激元,三维微腔中由于横向限定腔模和激子模形成离散化的本征模式。 |
