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微纳光纤的加热制备

发表时间:2009-02-15  浏览量:2750  下载量:864
全部作者: 丁晔,杨青,杨宗银,童利民
作者单位: 浙江大学光电信息工程系,现代光学仪器国家重点实验室
摘 要: 与电子器件相似,微型化也是光子器件的发展趋势之一。微纳光纤能够将光限域在亚波长尺度内实现低损耗的传输,这为光学器件微型化以及微芯片间的光互连提供了可能;同时微纳光纤具有强倏逝场和高光功率密度等特点,能够实现高灵敏度的光传感和低阈值的非线性光学效应。这些特点使得微纳光纤成为近年来微纳光子学研究的一个新热点。本文详细介绍了多种手工拉制微纳光纤和机械化拉制微纳光纤的方法,并比较了它们的优点和缺点。
关 键 词: 光学工程;微纳光纤;火焰加热拉伸;电加热拉伸;微纳光纤的制备
Title: The fabrication of micro-nano fibers by heaters
Author: DING Ye, YANG Qing, YANG Zongyin, TONG Limin
Organization: Department of Optical Engineering, State Key Laboratory of Modern Optical Instrumentation, Zhejiang University
Abstract: Similar to the electronic devices, photonic devices show the trend of miniaturization. Light can be limited in sub-wavelength domain to achieve long-distance and low-loss in transmission of microfiber, and this makes it possible to fulfill the miniaturization of optical devices and the optical interconnection between the microchip. Meanwhile, microfiber is satisfied with the characteristics of strong evanescent field and high-power density, and can achieve high sensitivity optical sensing and low threshold nonlinear optical effect. In recent years, these characteristics make micro-nano fiber become a new hot spot of micro-nano photonic study. This paper introduces many ways of taper-drawing fabrication of micro-nano fibers (MNFs) by hand and mechanization. And then advantages and disadvantages of the methods are compared.
Key words: optical engineering; micro-nano fibers; drawing by flame heater; drawing by electrical heater; fabrication of micro-nano fibers
发表期数: 2009年2月第3期
引用格式: 丁晔,杨青,杨宗银,等. 微纳光纤的加热制备[J]. 中国科技论文在线精品论文,2009,2(3):218-222.
 
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