光学与光电技术, 2016, 14 (5): 21, 网络出版: 2016-12-23  

陆地长距离通信用G.654.E新型光纤的开发

Developmentof the G.654.E Novelty Optical Fibers for Long-Haul Terrestrial Opitcal Fiber Communication
作者单位
江苏亨通光纤科技有限公司, 江苏 苏州 215200
摘要
从电磁场基本理论出发,采用标量波动方程进行分析与计算,设计出了一种陆地长距离通信用G.654.E新型光纤的折射率剖面结构。然后采用连续化学气相沉积工艺制造出光纤预制棒,在2 100 ℃左右的高温下拉丝成包层直径为124.6 μm的光纤。测试表明,该光纤的纤芯折射率为1.461 17,纤芯直径为14.0 μm,内包层下凹环的折射率为1.455 65,宽度为6.96 μm。该光纤在1 550 nm波长的模场直径为13.85 μm,有效面积为150 μm2。该光纤在1 550 nm波长的衰减为0.163 dB/km,在1 625 nm波长的衰减为0.176 dB/km。22 m光纤截止波长测试为1 490.6 nm,小于1 510 nm,有力保障了密集波分通信系统在光监控信道(OSC)的正常工作。国家通信干线工程应用表明该光纤的关键技术指标优于当前国际技术水平,能够满足陆地长距离大容量光纤通信的新需求。
Abstract
In this paper, through the basic theory of electromagnetic field, using the scalar wave equation, we analyzed and calculated a kind of novelty G.654.E optical fibers refractive index waveguide for the long-haul terrestrial application. The optical fiber preform was fabricated by the Continual Chemical Vapor Deposition (CCVD) process, then the fiber with 125 micrometer cladding diameter was drawn at the 2 100 ℃ temperature. The fibers core index is 1.461 17, and its diameter is 14.0 μm. The depressed refractive index of the inner-cladding is 1.455 65, and its width is 6.96 μm. The mode-field-diameter of 1 550 nm wavelength is 13.85 μm, and the effective area of 1 550 nm is 150 μm2. Their typical attenuation coefficients are 0.163 dB/km, 0.176 dB/km at 1 550 nm and 1 625 nm wavelength respectively. The 22 m samples cut-off wavelength is 1 490.6 nm, below 1 510 nm wavelength, which could be used for the optical supervising channel (OSC) in the dense wavelength division multiplexing (DWDM) communication system. National communication trunk engineering applications show that their key technological specifications are much more superior than the international technological level at present, they can meet on the demands of the long haul terrestrial fiber communication.

陈伟, 袁健, 张功会, 贺作为, 宋君. 陆地长距离通信用G.654.E新型光纤的开发[J]. 光学与光电技术, 2016, 14(5): 21. CHEN Wei, YUAN Jian, ZHANG Gong-hui, HE Zuo-wei, SONG Jun. Developmentof the G.654.E Novelty Optical Fibers for Long-Haul Terrestrial Opitcal Fiber Communication[J]. OPTICS & OPTOELECTRONIC TECHNOLOGY, 2016, 14(5): 21.

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