光子晶体光纤斜切技术

Yan Lü; Ziyao Wang; Yuanhong Yang; Shuai Li; Zhenyu Zhang

doi:10.11936/bjutxb2018080007

光子晶体光纤斜切技术

Yan Lü
, Ziyao Wang
, Yuanhong Yang
, Shuai Li
, Zhenyu Zhang

仪器科学与光电工程学院

Beijing University of Technology
Beihang University

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

To avoid the blockage of air holes in the photonic crystal fiber (PCF) during the oblique end face preparation process, a mechanical explanation for the parameter setting of PCF angle cutting was given, based on the principle of fracture mechanics and material mechanics. The relationship of the torsion angle and the endface angle was derived. The angle cutting system was optimized and upgraded, and the endface angle cutting was realized from 0° to 10°. The cutting quality was also evaluated. The effect of reducing back reflection by different endface angles was tested, in which the results show that the angle of >8° reduces the back reflection effectively. The endface of PCF was observed by a charge coupled device (CCD) system. The air holes of the endface cut by the angle cutting system were not blocked, which indicates that this method is qualified.

投稿的翻译标题	Angle Cutting Technology of Photonic Crystal Fiber
源语言	繁体中文
页（从-至）	132-139
页数	8
期刊	Beijing Gongye Daxue Xuebao / Journal of Beijing University of Technology
卷	46
期	2
DOI	https://doi.org/10.11936/bjutxb2018080007
出版状态	已出版 - 1 2月 2020

关键词

Air holes
Angle cutting
Angle cutting system
Back reflection
Endface preparation
Photonic crystal fiber (PCF)

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10.11936/bjutxb2018080007

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链接到 Scopus 的出版物

引用此

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title = "光子晶体光纤斜切技术",

abstract = "To avoid the blockage of air holes in the photonic crystal fiber (PCF) during the oblique end face preparation process, a mechanical explanation for the parameter setting of PCF angle cutting was given, based on the principle of fracture mechanics and material mechanics. The relationship of the torsion angle and the endface angle was derived. The angle cutting system was optimized and upgraded, and the endface angle cutting was realized from 0° to 10°. The cutting quality was also evaluated. The effect of reducing back reflection by different endface angles was tested, in which the results show that the angle of >8° reduces the back reflection effectively. The endface of PCF was observed by a charge coupled device (CCD) system. The air holes of the endface cut by the angle cutting system were not blocked, which indicates that this method is qualified.",

keywords = "Air holes, Angle cutting, Angle cutting system, Back reflection, Endface preparation, Photonic crystal fiber (PCF)",

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T1 - 光子晶体光纤斜切技术

AU - Lü, Yan

AU - Wang, Ziyao

AU - Yang, Yuanhong

AU - Li, Shuai

AU - Zhang, Zhenyu

PY - 2020/2/1

Y1 - 2020/2/1

N2 - To avoid the blockage of air holes in the photonic crystal fiber (PCF) during the oblique end face preparation process, a mechanical explanation for the parameter setting of PCF angle cutting was given, based on the principle of fracture mechanics and material mechanics. The relationship of the torsion angle and the endface angle was derived. The angle cutting system was optimized and upgraded, and the endface angle cutting was realized from 0° to 10°. The cutting quality was also evaluated. The effect of reducing back reflection by different endface angles was tested, in which the results show that the angle of >8° reduces the back reflection effectively. The endface of PCF was observed by a charge coupled device (CCD) system. The air holes of the endface cut by the angle cutting system were not blocked, which indicates that this method is qualified.

AB - To avoid the blockage of air holes in the photonic crystal fiber (PCF) during the oblique end face preparation process, a mechanical explanation for the parameter setting of PCF angle cutting was given, based on the principle of fracture mechanics and material mechanics. The relationship of the torsion angle and the endface angle was derived. The angle cutting system was optimized and upgraded, and the endface angle cutting was realized from 0° to 10°. The cutting quality was also evaluated. The effect of reducing back reflection by different endface angles was tested, in which the results show that the angle of >8° reduces the back reflection effectively. The endface of PCF was observed by a charge coupled device (CCD) system. The air holes of the endface cut by the angle cutting system were not blocked, which indicates that this method is qualified.

KW - Air holes

KW - Angle cutting

KW - Angle cutting system

KW - Back reflection

KW - Endface preparation

KW - Photonic crystal fiber (PCF)

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U2 - 10.11936/bjutxb2018080007

DO - 10.11936/bjutxb2018080007

M3 - 文章

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JO - Beijing Gongye Daxue Xuebao / Journal of Beijing University of Technology

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IS - 2

ER -

光子晶体光纤斜切技术

摘要

关键词

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其它文件与链接

指纹

引用此