1) excitation of random lasing
随机激光的激发
2) random laser
随机激光
1.
Unlike conventional lasers,no external resonant cavity is needed for random laser.
随机激光辐射源自激活无序介质,通过辐射光在介质中的多次散射提供光学反馈,无需外加谐振腔。
2.
Incoherent radiation of amplifying random media is investigated using Monte Carlo simulation and the characteristics of random laser are observed.
用蒙特卡罗方法仿真了增益随机散射体中的非相干辐射,观察了非相干随机激光的特性。
3.
This paper describes ZnO nanoparticle as gain medium to produce random laser.
介绍了以纳米ZnO粉末作为增益介质产生的随机激光。
3) random lasers
随机激光器
1.
Evolution of emmitted light intensity in two-photon pumping random lasers;
双光子抽运随机激光器中辐射光能量的演化
2.
Threshold and saturation properties of two-dimensional random lasers and mode selection;
二维随机激光器的模式选择及阈值与饱和特性
3.
Influence of spatial localization on the threshold of quasi-state cavities in random lasers;
随机激光器中准态腔的阈值与其局域化程度的关系
4) random laser
随机激光器
1.
Saturation characteristic of quasi-state modes in 1-D random lasers;
一维随机激光器中准态模的饱和特性研究
2.
Recent investigation on random lasers in theories and achievements;
随机激光器的理论与研究现状
3.
Based on a thoroughly research on the home and foreign literatures of laser technology,the research status of new lasers,including solid state heat capacity laser,ceramic laser,random laser,etc,is summarized.
在对国内外激光技术领域文献综合调研的基础上,讨论了固体热容激光器、陶瓷激光器、随机激光器等新型激光器的研究现状,并就新型激光器的优点与传统激光器进行了比较,展望了新型激光技术的广阔应用前景。
5) laser propulsion engine
激光发动机
6) Optical excitation mechanism
光激发机制
补充资料:晶体中的元激发(见固体中的元激发)
晶体中的元激发(见固体中的元激发)
elementary excitation in crystal
晶体中的元激发eleme讯ary excitation Incrvstal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