1) doubly clad optical fiber
双包层光纤维
2) doubly clad optical fibre
双包层光学纤维
3) double-clad fiber
双包层光纤
1.
Fused side-coupler for double-clad fiber lasers;
双包层光纤激光器的熔接型侧面耦合器
2.
Analytical expressions of the pump and laser power as SRS threshold in double-clad fiber lasers;
解析求解双包层光纤激光器中受激喇曼光的阈值
3.
Identifying the injected radiations actually pumping doped cores of double-clad fibers;
双包层光纤中泵浦光线的理论分析
4) double cladding fiber
双包层光纤
1.
Recent progress of high power pulsed double cladding fiber lasers;
高功率脉冲双包层光纤激光器的新进展
2.
In this paper, the work theorem, advantages, application and future development of double cladding fiber laser are introduced.
双包层光纤激光器是目前研制出的功率最大的光纤激光器 ,它的激光输出功率可达几百瓦 。
3.
The pumping efficiency and absorption length of pumping source for Yb-doped double cladding fiber are theoretically simulated based on the analyses of the effects of inner cladding structure,doping concentration,paraboloid index profile and background loss of outer cladding on pumping absorption efficencies.
基于对双包层光纤的内包层结构、掺杂浓度、剖面折射率分布、外包层的背底损耗等因素对泵浦光吸收效率的影响进行分析的基础上,对掺Yb3+双包层光纤内包层直径对泵浦光的吸收长度和泵浦效率进行了理论模拟。
5) double clad fiber
双包层光纤
1.
Thermal effect of Yb~(3+)-doped double clad fiber laser;
掺Yb~(3+)双包层光纤激光器的热效应分析
2.
The research progress,possible development direction and potential applications of LD pumped Yb 3+ doped double clad fiber lasers are reviewed.
综述近年来半导体激光二极管 ( LD)泵浦掺 Yb3+ 双包层光纤激光器进展、可能的发展方向及潜在的应
3.
The output power of the Yb3+ doped double clad fiber with single fiber was limited by the cooperative luminescence, thermal effect and nonliner effect.
根据能级间的吸收与辐射,分析了掺Yb3+双包层光纤中的合作发光效应,分析表明,随着Yb3+的掺杂浓度的增大,光纤中合作发光增强,抽运光越强,合作发光也越强。
6) double-cladding fiber
双包层光纤
1.
Optimization and design of high power ytterbium-doped double-cladding fiber laser;
高功率掺镱双包层光纤激光器的优化和设计
2.
Research for the side-coupling properties of microprism and double-cladding fiber;
微棱镜与双包层光纤侧面耦合效率的实验研究
3.
The design,fabrication and properties of the ytterbium-erbium co-doped double-cladding fiber are reported,which is made by method of a combination of the MCVD and solution doping technique.
文中主要介绍了用MCVD工艺结合溶液掺杂技术制备铒镱共掺双包层光纤的设计、制作及性能。
补充资料:双[1-(4-二甲氨基)苯基2-苯基1,2-二硫代乙烯合镍]
分子式:
CAS号:
性质:紫黑色单斜晶体。熔点277~278℃。溶于苯、甲苯、三氯甲烷等大多数有机溶剂。红外频率υ(C=S)1190、1165、1140cm-1,红外频率υ(S-C-C-S)880cm-1。由对二甲氨基安息香、五硫化二磷在二噁烷(二氧六环)中反应后,加入镍(Ⅱ)盐溶液制得。用作光学非线性材料。
CAS号:
性质:紫黑色单斜晶体。熔点277~278℃。溶于苯、甲苯、三氯甲烷等大多数有机溶剂。红外频率υ(C=S)1190、1165、1140cm-1,红外频率υ(S-C-C-S)880cm-1。由对二甲氨基安息香、五硫化二磷在二噁烷(二氧六环)中反应后,加入镍(Ⅱ)盐溶液制得。用作光学非线性材料。
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