微纳光纤直径精细控制枝术

卫正统; 侯德亭; 苗劲松; 杨华; 苗心向; 宋章启

doi:10.11884/HPLPB201830.170403

强激光与粒子束

微纳光纤直径精细控制枝术

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卫正统, 侯德亭, 苗劲松, 杨华, 苗心向, 宋章启. 2018: 微纳光纤直径精细控制枝术, 强激光与粒子束, 30(7): 131-135. doi: 10.11884/HPLPB201830.170403

引用本文:

卫正统, 侯德亭, 苗劲松, 杨华, 苗心向, 宋章启. 2018: 微纳光纤直径精细控制枝术, 强激光与粒子束, 30(7): 131-135. doi: 10.11884/HPLPB201830.170403

Wei Zhengtong, Hou Deting, Miao Jinsong, Yang Hua, Miao Xinxiang, Song Zhangqi. 2018: Precise control of optical microfiber diameter, High Power Lase and Particle Beams, 30(7): 131-135. doi: 10.11884/HPLPB201830.170403

Citation:

Wei Zhengtong, Hou Deting, Miao Jinsong, Yang Hua, Miao Xinxiang, Song Zhangqi. 2018: Precise control of optical microfiber diameter, High Power Lase and Particle Beams, 30(7): 131-135. doi: 10.11884/HPLPB201830.170403

微纳光纤直径精细控制枝术

解放军信息工程大学理学院,郑州,450000
中国工程物理研究院激光聚变研究中心,四川绵阳,621900
南方科技大学创新创业学院,深圳,518000

Precise control of optical microfiber diameter

摘要: 为实时监测高通量激光系统中洁净情况,提出了基于微纳光纤的微量污染物传感技术.为消除微纳光纤外形结构误差对测试结果影响,首先理论研究了微纳光纤拉制过程,得到了加热长度和拉伸长度误差和引入微纳光纤外形结构偏差的关系,接着通过理论仿真得到了不同拉制参数条件下,微纳光纤外形结构误差情况,并得到了拉制长度为10 mm、直径为1.5μm的最优制备参数,最后通过实测微纳光纤外形结构验证了理论仿真结果.实验结果表明,通过优化微纳光纤拉制参数可实现其外形结构的精细控制,为微纳光纤用于微量污染物传感工程实用化奠定基础.
- 微纳光纤 /
- 污染检测 /
- 外形结构 /
- 精细控制
Abstract: To monitor the environment in high peak laser system inline,the method to sense containments by using optical microfiber(OM)was proposed.To realize precise control of the OM diameter,we firstly analyzed the OM fabrication process, obtained the relationship between the deviation of the OM shape and the errors of heating length and stretching length,then simu-lated the deviation in different situation,finally got the optimal parameter to fabricate OM with the length of 10 mm and the di-ameter of 1 .5μm.We have proved the simulation results by measuring the shape of the drawn OMs.According to our research, precise control of OM shape can be achieved by tuning the OM fabrication parameters,and the results lay the foundation for prac-tical application of OM contaminants sensor.

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微纳光纤直径精细控制枝术

解放军信息工程大学理学院,郑州,450000
中国工程物理研究院激光聚变研究中心,四川绵阳,621900
南方科技大学创新创业学院,深圳,518000

关键词:

摘要: 为实时监测高通量激光系统中洁净情况,提出了基于微纳光纤的微量污染物传感技术.为消除微纳光纤外形结构误差对测试结果影响,首先理论研究了微纳光纤拉制过程,得到了加热长度和拉伸长度误差和引入微纳光纤外形结构偏差的关系,接着通过理论仿真得到了不同拉制参数条件下,微纳光纤外形结构误差情况,并得到了拉制长度为10 mm、直径为1.5μm的最优制备参数,最后通过实测微纳光纤外形结构验证了理论仿真结果.实验结果表明,通过优化微纳光纤拉制参数可实现其外形结构的精细控制,为微纳光纤用于微量污染物传感工程实用化奠定基础.

English Abstract

Precise control of optical microfiber diameter

解放军信息工程大学理学院,郑州,450000
中国工程物理研究院激光聚变研究中心,四川绵阳,621900
南方科技大学创新创业学院,深圳,518000

Keywords:

Abstract: To monitor the environment in high peak laser system inline,the method to sense containments by using optical microfiber(OM)was proposed.To realize precise control of the OM diameter,we firstly analyzed the OM fabrication process, obtained the relationship between the deviation of the OM shape and the errors of heating length and stretching length,then simu-lated the deviation in different situation,finally got the optimal parameter to fabricate OM with the length of 10 mm and the di-ameter of 1 .5μm.We have proved the simulation results by measuring the shape of the drawn OMs.According to our research, precise control of OM shape can be achieved by tuning the OM fabrication parameters,and the results lay the foundation for prac-tical application of OM contaminants sensor.

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微纳光纤直径精细控制枝术

Precise control of optical microfiber diameter

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微纳光纤直径精细控制枝术

English Abstract

Precise control of optical microfiber diameter

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