1) microstructred polymer optical fibers
塑料微结构光纤
2) microstructure fiber
微结构光纤
1.
Yb~(3+)-doped double cladding microstructure fiber laser with output power exceeded 10 W;
输出功率大于10W的掺镱双包层微结构光纤激光器
2.
Nonlinear coefficient measurement of microstructure fiber based on self-phase modulation;
利用自相位调制效应测量微结构光纤的非线性系数
3.
Research on high nonlinearity and flattened dispersion of microstructure fibers;
高非线性色散平坦微结构光纤的研究
3) microstructure fibers
微结构光纤
1.
Numerical simulation on ultrashort laser pulses propagating in microstructure fibers;
微结构光纤中超短激光脉冲传输的数值模拟
2.
Drawing temperature is an important factor affecting the structure of microstructure fibers (MSF) during MSF drawing.
根据非稳态傅里叶热传导方程及微结构光纤(MSF)预制棒的初始条件和边界条件,建立圆柱形坐标系,推导出MSF预制棒的温度场分布方程。
4) microstructured fiber
微结构光纤
1.
Research on the supercontinuum generation in a microstructured fiber pumped at the normal dispersion region;
正常色散区泵浦微结构光纤产生超连续谱研究
2.
All-optical regeneration based on self-phase modulation in microstructured fiber is studied.
利用微结构光纤作为非线性介质,实现了基于自相位调制(SPM)效应的全光再生。
3.
All-optical regeneration based on self-phase modulation in a highly nonlinear microstructured fiber is proposed.
提出了利用高非线性微结构光纤自相位调制效应进行全光再生的研究方案。
5) microstructured optical fiber
微结构光纤
1.
The circle-lattice microstructured optical fiber is designed.
设计出了一种呈圆形分布的渐变微结构光纤,并运用时域有限差分法计算了该种光纤方形和三角形格点分布的微结构光纤的色散特性,然后对它们的色散特性进行了比较。
2.
The experiment on alloptical switching based on microstructured optical fiber(MOF) is reported.
利用基于高非线性微结构光纤的非线性光纤环镜,在10 Gb/s光传输系统中进行了全光开关的实验研究。
3.
A new square lattice varying microstructured optical fiber is presented.
提出了一种新型的方形分布渐变空气孔微结构光纤。
6) microstructured optical fibers
微结构光纤
1.
Analysis of confinement loss in microstructured optical fibers with elliptical air holes;
椭圆空气孔微结构光纤限制损耗的分析
2.
The nonlinearity coefficient of microstructured optical fibers(MOFs) is a quantity of great importance in devices based on the nonlinearity of the fibers.
在基于微结构光纤(MOFs)的非线性装置中,光纤的非线性系数是一个很重要的参数,它受包层空气孔不均匀性的影响。
3.
In this thesis, fiber Bragg gratings (FBGs) are inscribed in polarization maintaining and microstructured optical fibers by use of phase mask method, and sensing characterizations of the gratings are investigated.
本文在保偏和微结构光纤上,采用相位掩模板法制备了光纤布拉格(Bragg)光栅,并研究了光栅的传感特性。
补充资料:塑料光纤
分子式:
CAS号:
性质:指有机高分子制成的光导纤维。有两大类:(1)阶段指数型(SI),亦称芯鞘型,常用PMMA或PS为芯材,透明氟树脂或PMMA为鞘材,鞘材折射率比芯材小0.1左右,PM-MA-POF在650nm波长下的光损耗为1000dB/m,在570nm下最低仅为70dB/m,耐热性80℃;PS-POF在670nm下最低光损耗为114dB/m,而热固型芯POF耐热温度高,制法主要采用芯鞘型复合熔纺法,用于汽车、室内和地区网络等通信领域及装饰灯;(2)分布指数或渐变指数型(GI),具有聚焦性能,由两段共聚法、光共聚法、热拉伸法等制取。
CAS号:
性质:指有机高分子制成的光导纤维。有两大类:(1)阶段指数型(SI),亦称芯鞘型,常用PMMA或PS为芯材,透明氟树脂或PMMA为鞘材,鞘材折射率比芯材小0.1左右,PM-MA-POF在650nm波长下的光损耗为1000dB/m,在570nm下最低仅为70dB/m,耐热性80℃;PS-POF在670nm下最低光损耗为114dB/m,而热固型芯POF耐热温度高,制法主要采用芯鞘型复合熔纺法,用于汽车、室内和地区网络等通信领域及装饰灯;(2)分布指数或渐变指数型(GI),具有聚焦性能,由两段共聚法、光共聚法、热拉伸法等制取。
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