本文介绍了一种基于激光基座加热法的单晶光纤拉制系统,并对其光学系统进行了仿真,实验,验证了系统的优越性。
The paper proposes a drawing single crystal fiber system based the method of base heated by laser and the simulation of the system. The experiment proves the advantages of the system.
本文提出了高拉制速度对有孔光纤参数的影响。
The effects of high drawing speeds on parameters of holey fibers are presented.
测量了拉制成的有孔光纤的数值孔径和归一化频率等传输参数,并基于有效折射率方法与理论值进行了比较。
Transmission parameters such as numerical aperture and normalized frequency of the fabricated holey fibers have been measured and compared with theoretical values based on effective index method.
提出在拉制光纤时必须严格控制工艺,确保光纤性能一致性。
This paper shows that drawing process should be accurately controlled so as to ensure the performance accordance optical fiber.
用“筒中筒”方法高速拉制了有孔光纤预制样品,目标是符合下一代通信系统的量产需求。
A holey fiber preform structure was made by using tube-in-tube method and was drawn at high speeds with an aim of mass production to meet the demand of next generation communication systems.
通过对酸溶法光纤传像束材料和拉制工艺方面的研究,阐述了酸溶法光纤传像束的工艺原理。
The paper expounds the working principles of optical fiber image transmitting bundle by acid-leaching technology according to research on the quality of glass and its making technology, .
另外,该结构高双折射光子晶体光纤在拉制工艺、光纤强度以及光纤熔接等方面也具有一定的优势。
Otherwise, it also has some advantages in the aspects of fiber drawing technique, fiber strength and fiber splicing.
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.
本发明是一种拉制光纤光锥的方法及设备。
The invention discloses a method and device for drawing cone shaped optical fiber.
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.
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.
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