通过改进的堆积法,制备无间隙孔微结构光纤(MSF)。
We describe an improved stacking-capillary method, which can fabricate the micro-structure fiber (MSF) without interstitial holes.
利用光束传播法对微结构光纤布拉格光栅谐振特性进行了模拟研究。
The Microstructure Optical Fiber Bragg Grating(MOFFBG) is simulated using beam propagation method(BPM).
最后,提出了两种可实现光单偏振,单模传输的高非线性微结构光纤。
In the end, two kinds of highly nonlinear microstructured optical fibers that can achieve single-polarization, single mode transmission are designed.
实验结果表明,利用这种微结构光纤可以实现结构紧凑的宽带波长变换器。
The experimental results show that a compact wavelength converter can be realized by utilizing this microstructure fiber.
利用改进的有效折射率法,设计了一种能得到高效率的参量放大的色散平坦微结构光纤。
By way of using improved effective index method, we have designed a dispersion-flattened microstructure fiber to get high efficiency optical parametric amplification.
由于强的红外吸收,石英玻璃材料拉制成的光纤或微结构光纤在中红外波段的传输损耗很大。
Microstructured fibers made of silica undergo high loss in transmission due to the intrinsic material absorption in mid-infrared region.
实验结果表明,由非规则填充气孔组成的多芯微结构光纤可以出现超强的非线性和超连续谱展宽。
The experimental results show that super non-linearity occurs as the MFs with random air lines are used for generation of supercontinuum.
采用矢量光束传输法对空气孔包层呈正六边形分布的微结构光纤的色散和非线性特性进行了数值模拟。
The dispersive and nonlinear properties of the microstructure fiber with hexagonally distributed air-holes in the cladding are numerically simulated by using the vectorial beam propagation method.
为产生中红外波段的超连续谱,须使用在该波段具有高透过率的非石英材料来拉制光纤或微结构光纤。
Non-silica glass materials are good candidates for fabricating microstructured fibers used for mid-IR supercontinuum generation because of their high transmittance in the region.
通过控制间隙孔与毛细管中的气压差,可以制备出无间隙孔微结构光纤,并有助于保持包层孔的结构,大大提高了制备工艺的稳定性。
With this method, we can fabricate the MSF without the interstitial hole, and this will help to keep the cladding's structure, and enhance the stability of the fabrication.
研究结果可为高功率光纤激光器、出射光斑为特定形状的光纤激光器的设计提供理论依据,对其他类似微结构光纤在激光器领域的应用具有借鉴意义。
The results may provide a basis for high power fiber lasers or for fiber lasers which have particular spot shape and are also helpful for similar microstructure fibers applied in laser areas.
研究结果有助于设计高性能的微结构保偏光纤。
The results is helpful for the design of microstructured polarization-maintaining fibers with high performance.
采用化学原位聚合技术和套管法二次预制棒拉丝技术,成功制备了椭圆芯微结构聚合物光纤。
A kind of microstructured polymer optical fiber with elliptical core has been fabricated by adopting in-situ chemical polymerization technology and the secondary sleeving draw-stretching technique.
拉丝是制作微结构聚合物光纤(MPOF)的关键环节之一,而加热系统则是拉丝塔的关键组成部分。
Drawing is one of the key steps in fabricating microstructured polymer optical fibers (MPOF), and the heating system is very important part of the drawing tower.
采用矢量有限元法分析和设计了一种新型的层状微结构光子晶体光纤。
A novel photonic crystal fiber (PCF) with layered microstructures was designed and investigated by the vector finite element method.
这种微结构塑料光纤的研究结果显示它具有高双折射特性。
The result of the research for MPOF shows it has a high birefringence.
文章作者根据高功率光纤激光器的性能要求,设计和制备了内包层为D形和六边形的微结构掺镱双包层光纤。
In this paper, microstructure D-shape and hexagon inner cladding ytterbium doped fiber was designed and fabricated based on requirements of high power fiber laser.
显微结构测试表明该光纤孔结构保持完好清楚。
Microscope photography demonstrates the clear hole-structure retained in the fiber.
显微结构测试表明该光纤孔结构保持完好清楚。
Microscope photography demonstrates the clear hole-structure retained in the fiber.
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