| 1. | Spontaneous photons initiate stimulated emission and the chain reaction begins .
自发发射的光子引起受激发射,开始了链式反应。 |
| 2. | This work was followed by worldwide research aimed at improving understanding of the theory of stimulated emission in semiconductors .
各国相继进行广泛研究,以进一步探讨半导体中的受激发射理论。 |
| 3. | By reducing the feedback of the cavity, a laser will no longer be self oscillatory but it will amplify an incident wave which has triggered stimulated emission .
减小腔的反馈,激光器就不再会自己振荡,而只是放大触发受激发射的入射波。 |
| 4. | Stimulated emission characteristics of zno thin films deposited by magnetron sputtering on sio2 substrates
薄膜的受激发射特性的研究 |
| 5. | It was concluded that lasing was waveguided in ito layer and amplified near the interface in lighting layer where gain was obtained by light pumping
经判定,受激发射是由于ito波导在与有机材料交界附近的增益区放大所致。 |
| 6. | 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。 |
| 7. | Since the first observation of the stimulated ultraviolet emission at room temperature , zno has become another hotspot in the region of uv light emitting researching
自1997年首次发现zno室温紫外受激发射以来, zno研究已成为继gan之后紫外发射材料研究的又一研究热点。 |
| 8. | Some new small mass molecule organic laser dyes with blue emitting color , were found . lasing were realized with waveguide structure of some materials " films on glass substrate
用几种有机材料在玻璃薄膜波导结构中都实现了受激发射,清晰的光斑,从薄膜侧边投射到屏幕上。 |
| 9. | The ultraviolet laser emission is the expected goal of zno nanowires , but we need deep ultraviolet excite source to pump in previous experiments , which put a disadvantageous limit in future application
Zno纳米线紫外受激发射是人们希望达到的目标,但以往的激发过程一般是采用深紫外光泵浦,这对应用本身就是一条不利的限制。 |
| 10. | Important information is that the distance between metal electrode and emitting layer must be suitable . too large , difficult injection ; too small , excitons quenching . within 0 - 70ma / cm2 injection , no effect was observed
实验给出影响受激发射的重要信息:金属电极距增益区距离要适当,太大,器件厚,电注入困难;太小发光激子在电极猝灭。 |
