1) cavity length
腔长
1.
Also,this paper imitates the relations of threshold properties and cavity length using PSpice.
推导了量子阱激光器(也称为低阈值量子阱激光器)的最佳阱数的计算公式,经与实验值相比较,比较吻合,并且用PSpice模拟了阈值电流与腔长的关系。
2.
To design the proper initial cavity length,to hold the cavity opening and to properly glue the fibers and the silica tube are all effective methods.
根据传感器的制作工艺和原理,分析了减小温度系数的方法:设计适当的初始腔长、采用开放腔以及控制光纤与石英套管的粘接方式,都可以有效地控制温度对传感器的影响,以适应传感器在不同场合的应用。
3.
The relation of device parameter (cavity length and the reflect coefficient of mirror) on threshold current and optimal well numbers was discussed.
讨论了阈值电流密度、最佳阱数等与器件参数(腔长和端面反射率)之间的依赖关系。
2) long cavity
长腔
1.
Using a symmetric concave-concave cavity and setting the operating points near the border of the dynamic-stable region, the 37 Watts TEM()() output is obtained from long cavity CW YAG laser.
采用双凹对称腔,使工作点落在动力学稳定区的边界附近,在长腔情况下获得了37W的基横模连续YAG激光输
3) the length of the resonant cavity
谐振腔腔长
1.
The connection between the coherence length and the length of the resonant cavity was analyzed in this paper.
分析了激光器的相干长度与谐振腔腔长的关系,研究了全固态Nd:YVO4/KTP激光器,在谐振腔腔长超过1m时绿光的输出。
4) extend medullary cavity
延长髓腔
5) length of air cavity
空腔长度
1.
Analysis on length of air cavity of lateral aerators;
侧墙掺气坎空腔长度初探
6) cavity length control
腔长控制
1.
Application of DDC112 in cavity length control circuit of laser gyro;
DDC112在激光陀螺腔长控制电路中的应用
2.
In order to solve the problems in ring laser gyro s frequency stabilization and assure laser gyro s precision, a new kind of light path and cavity length control mirror has been demonstrated in this paper, adopting the combination of cavity length control mirror and angle control mirror to control its light path and cavity length.
<正>为了解决当前环形激光陀螺中激光器稳频措施存在的问题,保证激光陀螺的精度,设计了一种新型调腔用光路腔长控制镜,采用腔长控制镜和角度控制镜结合的方式同时控制激光陀螺光路及腔长。
补充资料:钿带长中腔
【诗文】:
簇真香。似风前拆麝囊。嫩紫轻红,间斗异芳。风流富贵,自觉兰蕙荒。独占蕊珠春光。绣结流苏密织,魂梦悠扬。气融液散满洞房。朝寒料峭,殢娇不易当。著意要得韩郎。
【注释】:
【出处】:
引自"竹筠清课"http://www.zhuyunqingke.com/
簇真香。似风前拆麝囊。嫩紫轻红,间斗异芳。风流富贵,自觉兰蕙荒。独占蕊珠春光。绣结流苏密织,魂梦悠扬。气融液散满洞房。朝寒料峭,殢娇不易当。著意要得韩郎。
【注释】:
【出处】:
引自"竹筠清课"http://www.zhuyunqingke.com/
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