徐锡镇

作者:时间:2022-10-20点击数:

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徐锡镇,助理教授,深圳大学物理与光电工程学院。2013年浙江工业大学理学院获理学学士学位;2016年深圳大学光电工程学院获工学硕士学位;2019年深圳大学物理与光电工程学院获工学博士学位。目前的研究方向包括:高温力热光纤传感器件及应用、飞秒激光制备光纤光栅技术、蓝宝石光纤传感器、强包层模光纤光栅传感器。

目前已主持项目4项,其中国家自然科学基金1项,广东省自然科学基金1项,中国博士后基金1项,深圳市项目1项,主持并成功结题中国博士后基金1项和深圳市项目1项,参与项目6项,共发表论文40余篇,其中SCI期刊论文33篇,第一作者7篇,通讯作者3篇,会议论文16篇,第一作者5篇,授权发明专利3项,实用新型17项,申请国际专利5项,并获得5个奖项。


一、工作/教育经历

工作经历

2021/07-至今,深圳大学,物理与光电工程学院,助理教授

2019/06-2021/07,深圳大学,物理与光电工程学院,博士后


教育经历

2016/09-2019/06,深圳大学,光学工程,工学博士

2013/09-2016/07,深圳大学,光学工程,工学硕士

2009/09-2013/07,浙江工业大学,光信息科学与技术,本科、理学学士


二、科研项目

1.国家自然科学基金青年科学基金项目,基于全同弱反射蓝宝石光纤光栅阵列的分布式高温传感技术(62005170),2021/01/01-2023/12/31,24万,主持。

2.广东省自然科学基金粤深联合基金青年项目,基于蓝宝石光纤光栅阵列的分布式高温传感技术(2019A1515111114),2020/01/01-2022/12/31,10万,主持。

3.中国博士后科学基金面上项目,面向航空发动机故障诊断的蓝宝石光纤超高温传感技术(2019M663049),2020/01/01-2021/06/30,8万,主持。

4.深圳市个人创客项目,面向易燃易爆环境的液位传感器(GRCK2016041314562596),2016/09-2017/08,15万,主持。


三、发表论文

Ø期刊论文

[1] Xunzhou Xiao, Jun He, Xizhen Xu*, Runxiao Chen, Bin Du, Yanping Chen, Shen Liu, Cailing Fu, and Yiping Wang, “High-temperature-resistant fiber laser vector accelerometer based on a self-compensated multicore fiber Bragg grating,” Sensors, 22, 6459, 2022. (JCR二区, IF=3.847)

[2] Jun He, Runxiao Chen, Xizhen Xu*, Jia He, Baijie Xu, Shen Liu, Changrui Liao, Dejun Liu, Yuan Gong, and Yiping Wang, “Femtosecond laser line-by-line inscription of apodized fiber Bragg gratings,” Journal of Lightwave Technology, 40(16), pp. 5722-5728, 2022. (JCR二区, IF=4.162)

[3] Jun He, Ziyong Chen, Xizhen Xu*, Jia He, Baijie Xu, Bin Du, Kuikui Guo, Runxiao Chen, and Yiping Wang, “Femtosecond laser line-by-line inscription of apodized fiber Bragg gratings,” Optics Letters, 46(22), pp. 5663-5666, 2021. (JCR二区, IF=3.56)

[4] Xizhen Xu, Jun He*, Baijie Xu, Runxiao Chen, Kaiming Yang, Changrui Liao, Yatao Yang, and Yiping Wang, “Slit beam shaping for femtosecond laser point-by- point inscription of high-quality fiber Bragg gratings,” Journal of Lightwave Technology, 39(15), pp. 5142-5148, 2021. (JCR区, IF=4.439)

[5] Xizhen Xu, Jun He*, Jia He, Baijie Xu, Runxiao Chen, Ying Wang, Yatao Yang, and Yiping Wang, “Efficient point-by-point Bragg grating inscription in sapphire fiber using femtosecond laser filaments,” Optics Letters, 46(11), pp. 2742-2745, 2021. (JCR二区, IF=3.56)

[6] Xizhen Xu, Jun He*, Changrui Liao, and Yiping Wang, “Multi-layer, offset-coupled sapphire fiber Bragg gratings for high-temperature measurements,” Optics Letters, 44(17), pp.4211-4214, 2019. (JCR二区, IF=3.714)

[7] Xizhen Xu, Jun He*, Changrui Liao, Kaiming Yang, Kuikui Guo, Chi Li, Yunfang Zhang, Zhengbiao Ouyang, and Yiping Wang, “Sapphire fiber Bragg gratings inscribed with a femtosecond laser line-by-line scanning technique,” Optics Letters, 43(19), pp.4562-4565, 2018. (JCR二区, IF=3.866)

[8] Xizhen Xu, Jun He*, Maoxiang Hou, Shuhui Liu, Zhiyong Bai, Ying Wang, Changrui Liao, Zhengbiao Ouyang, and Yiping Wang, “A miniature fiber collimator for highly sensitive bend measurements,” Journal of Lightwave Technology, 36(14), pp. 2827-2833, 2018. (JCR二区, IF=4.162)

[9] Xizhen Xu, Ying Wang*, Shen Liu, Changrui Liao, Jun He, Jiarong Lian, and Yiping Wang*, Growth dynamics of ZnO nanowire on a fiber-tip air bubble, Optical Materials Express, 25(18), PP.3433-3440, 2017. (JCR二区,IF=2.566)

[10] Xizhen Xu, Jian Tang, Jing Zhao, Kaiming Yang, Cailing Fu, Qiao Wang, Shen Liu, Changrui Liao, Jiarong Lian, and Yiping Wang*, “Post-treatment techniques for enhancing mode-coupling in long period fiber gratings induced by CO2 laser,” Photonic Sensors, 5(4), 339-344, 2015. (JCR三区, IF=2.073)

[11] Xunzhou Xiao, Jun He, Bin Du, Xizhen Xu, and Yiping Wang, “Vectorial distributed acoustic sensing based on a multicore fiber and phase-sensitive optical time-domain reflectometry,” Optics Letters, 47(20), pp.5413-5416, 2022. (JCR二区, IF=3.714)

[12] Jia He, Fengchan Zhang, Xizhen Xu, Bin Du, Jiafeng Wu, Zhuoda Li, Zhiyong Bai, Jinchuan Guo, Yiping Wang and Jun He, “Highly Sensitive Temperature Sensor Based on Cascaded Polymer-Infiltrated Fiber Mach–Zehnder Interferometers Operating near the Dispersion Turning Point, Polymers, 14, 3617, 2022. (JCR二区,IF=3.64)

[13] Baijie Xu, Jun He, Xizhen Xu, Jia He, Kuikui Guo, Weijia Bao, Runxiao Chen, Shen Liu, Changrui Liao, and Yiping Wang, “Simultaneous measurement of torsion and strain at high temperature by using a highly birefringent cladding fiber Bragg grating, Optics Express, 30(16), 28710-28719, 2022. (JCR二区, IF=3.833)

[14] Yiwei Li, Ning An, Zheyi Lu, Yuchen Wang, Bing Chang, Teng Tan, Xuhan Guo, Xizhen Xu, Jun He, Handing Xia, Zhaohui Wu, Yikai Su, Yuan Liu*, Yunjiang Rao*, Giancarlo Soavi*, & Baicheng Yao*, “Nonlinear co-generation of graphene plasmons for optoelectronic logic operations, Nature Communications, 13: 3138, 2022. (JCR一区, IF=12.973)

[15] Kuikui Guo, Jun He, He Li, Xizhen Xu, Bin Du, Shen Liu, Yanping Chenm Dingbang Ma, Ying Wang, Gaixia Xu, and Yiping Wang, “Polarimetric fiber laser for relative humidity sensing based on graphene oxide-coated D-shaped fiber and beat frequency demodulation,” Optics Express, 30(10), 15998-16008, 2022. (JCR二区, IF=3.833)

[16] Kuikui Guo, Jun He*, He Li, Baijie Xu, Shengzhen Lu, Shen Liu, Xizhen Xu, Gaixia Xu, and Yiping Wang, “High-Spatial-Resolution high-temperature sensor based on ultra-short fiber Bragg gratings with dual-wavelength differential detection,” Journal of Lightwave Technology, 40(7), 2166-2172, 2022. ( JCR区, IF=4.439)

[17] Jia He, Xizhen Xu, Bin Du, Baijie Xu, Runxiao Chen, Ying Wang, Changrui Liao, Jinchuan Guo, Yiping Wang, and Jun He*, “Stabilized ultra-high-temperature sensors based on inert gas-sealed sapphire fiber Bragg gratings,” Applied Materials & Interfaces, 14(10), 12359–12366, 2022. (JCR 一区, IF=10.383)

[18] Xunzhou Xiao, Baijie Xu, Xizhen Xu, Bin Du, Ziyong Chen, Cailing Fu, Changrui Liao, Jun He*, and Yiping Wang, “Femtosecond laser auto-positioning direct writing of a multicore fiber Bragg grating array for shape sensing, Optics Letters, 47(4), pp. 758-761, 2022. (JCR二区, IF=3.56)

[19] Jun He, Jia He, Xizhen Xu, Bin Du, Baijie Xu, Changrui Liao, Zhiyong Bai, and Yiping Wang*, “Single-mode helical Bragg grating waveguide created in a multimode coreless fiber by femtosecond laser direct writing,” Photonics Research, 9(10), 2052-2059, 2021. (JCR一区,IF=7.254)

[20] Baijie Xu, Jun He, Bin Du, Xunzhou Xiao, Xizhen Xu, Cailing Fu, Jia He, Changrui Liao, and Yiping Wang, “Femtosecond laser point-by-point inscription of an ultra-weak fiber Bragg grating array for distributed high-temperature sensing,” Optics Express, 29(20), 32615-32626, 2021. (JCR二区, IF=3.833)

[21] Jun He, Baijie Xu, Shuai Ju, Maoxiang Hou, Kuikui Guo, Xizhen Xu, Ying Wang, Shen Liu, and Yiping Wang, “Temperature-insensitive directional transverse load sensor based on dual side-hole fiber Bragg grating,” Optics Express, 29(12), 17700-17709, 2021. (JCR二区, IF=3.833)

[22] Jun He, Baijie Xu, Xizhen Xu, Changrui Liao, and Yiping Wang*, “Review of Femtosecond-Laser-Inscribed Fiber Bragg Gratings: Fabrication Technologies and Sensing Applications” Photonic Sensors, 5(4),339-344, 2021. (JCR三区, IF=2.814)

[23] Zhe Zhang, Baijie Xu, Min Zhou, Weijia Bao, Xizhen Xu, Ying Wang, Jun He*, and Yiping Wang, “Hollow-core fiber-tip interferometric high-temperature sensor operating at 1100 oC with high linearity” Micromachines, 12, 234, 2021. (JCR二区, IF=3.523)

[24] Bin Du, Jun He, Minghong Yang, Ying Wang, Xizhen Xu, Jiachen Wang, Zhe Zhang, Fengchan Zhang, Kuikui Guo, and Yiping Wang, “Highly sensitive hydrogen sensor based on an in-fiber Mach-Zehnder interferometer with polymer infiltration and Pt-loaded WO3 coating,” Optics Express, 29(3), 4147-4158, 2021. (JCR二区, IF=3.833)

[25] Fengchan Zhang, Xizhen Xu, Jun He*, Bin Du, and Yiping Wang Highly sensitive temperature sensor based on a polymer-infiltrated Mach–Zehnder interferometer created in graded index fiber, Optics Letters 44 (10), 2466-2469, 2019. (JCR二区,IF=3.714)

[26] Bin Du, Xizhen Xu, Jun He*, Kuikui Guo, Wei Huang, Fengchan Zhang, Min Zhang, and Yiping Wang,“In-fiber collimator-based Fabry-Perot interferometer with enhanced vibration sensitivity,”Sensors 19(2), 435, 2019. (JCR二区,IF=3.031)

[27] Maoxiang Hou, Jun He*, Xizhen Xu, Ziliang Li, Zhe Zhang, Kuikui Guo, Shuai Ju, and Yiping Wang,*“Antiresonant reflecting guidance and Mach-Zender interference in cascaded hollow-core fibers for multi-parameter sensing,” Sensors 18(12), 4140, 2018. (JCR二区,IF=3.031)

[28] Jinshan Xu, Jun He,* Wei Huang, Xizhen Xu, Kuikui Guo, Zhe Zhang, and Yiping Wang, “Suppression of parasitic interference in a fiber-tip Fabry-Perot interferometer for high pressure measurements,” Optics Express 26(22), 28178-28185, 2018. (JCR二区,IF=3.561)

[29] Maoxiang Hou, Kaiming Yang, Jun He, Xizhen Xu, Shuai Ju, Kuikui Guo, and Yiping Wang, “Two-dimensional vector bending sensor based on seven-core fiber Bragg gratings,” Optics Express, 26(18), pp.23770-23781, 2018. (JCR二区, IF=3.561)

[30] Kuikui Guo, Jun He, Kaiming Yang, Zhe Zhang, Xizhen Xu, Bin Du, Gaixia Xu, and Yiping Wang,“Symmetric step-apodized distributed feedback fiber laser with improved efficiency,” IEEE Photonics Journal 11 (4), 1600211, 2019. (JCR三区,IF=2.729)

[31] Feng Zhang, Shen Liu, Ying Wang*, Yijian Huang, Xizhen Xu, Cailing Fu, Tiesheng Wu, Changrui Liao, and Yiping Wang*, “Highly sensitive torsion sensor based on directional coupling in twisted photonic crystal fiber,” Applied Physics Express 11(4), 042501, 2018. (JCR二区, IF=2.772)

[32] Guanjun Wang, Chao Wang, Shen Liu, Jing Zhao, Changrui Liao, Xizhen Xu, Haijian Liang, Guolu Yin, and Yiping Wang,“Side-Opened Suspended Core Fiber-Based Surface Plasmon Resonance Sensor,” IEEE Sensors Journal 15(7), 4086-4092, 2015. (JCR三区,IF=1.889)

[33] Jing Zhao, Shaoqing Cao, Changrui Liao, Ying Wang, Guanjun Wang, Xizhen Xu, Cailing Fu, Guiwen Xu, Jiarong Lian, Yiping Wang∗, “Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber,” Sensors and Actuators B-Chemical 230, 206-211, 2016. (JCR一区,IF=5.401)

[34] Jing Zhao, Guolu Yin, Changrui Liao, Shen Liu, Jun He, Bing Sun, Guanjun Wang, Xizhen Xu, and Yiping Wang*, “Rough side-polished fiber with surface scratches for sensing applications,” IEEE Photonics Journal 7(3), 6801107, 2015. (JCR二区,IF=2.177)

[35] 陈梓泳,何俊*徐锡镇,贺佳,许百杰,杜斌,廖常锐,王义平,飞秒激光逐点法制备光纤布拉格光栅高温传感器阵列,光学学报 41(13),13060022021.

[36] 罗皙,陈薇赵宏飞徐锡镇,刘斯扬,牛芳芳,曾鹏举,连家荣,“有机电子注入材料对Cs2CO3阴极结构电子注入能力的影响”功能材料3(46), 3086-3089, 2015.

[37] 张明,顾锐锐,朱李核,胡晓明,徐锡镇双摄像机立体视觉系统的标定 浙江工业大学学报,41(5), 586-590, 2013.


Ø会议论文

[1] Xizhen Xu, Jun He*, Jia He, Baijie Xu, Changrui Liao, and Yiping Wang, “High-temperature sensors based on sapphire fiber Bragg gratings fabricated by using femtosecond laser direct writing technique,” Asia Communications and Photonics Conference 2021 (LTO-2021), Shanghai, LTO300-49 V. 2, 2021.

[2] Xizhen Xu, Jun He, Changrui Liao, and Yiping Wang, “Ultrafast laser inscription of fiber Bragg gratings with low polarization dependent loss,” Asia Communications and Photonics Conference 2020 (ACP-2020), Beijing, M4A.113, 2020.

[3] Xizhen Xu, Jun He, Changrui Liao, “Sapphire Fiber Bragg Gratings with Improved Spectral Properties for High-temperature Measurements,” 2019 Photonics & Electromagnetics Research Symposium - Fall (PIERS - Fall), Dec 17-20, 2019. (EI收录口头报告)

[4] Xizhen Xu, Jun He, Changrui Liao, Ying Wang, Yiping Wang, “Highly sensitive bend measurements using a miniature fiber collimator-based Fabry-Perot Interferometer, Asia Communications and Photonics Conference (ACP) 2018, Hangzhou, Oct 26-29, 2018. (EI收录口头报告)

[5] Xizhen Xu, Jun He, Changrui Liao, Ying Wang, and Yiping Wang, “Highly sensitive bend sensor based on an integrated fiber collimator, 1st International Conference on Optics, Photonics and Lasers (OPAL') 2018, Barcelona, Spain May 9-11, 2018.(口头报告)

[6] 徐锡镇、王英、何俊、廖常锐、连加荣、王义平, 基于光纤气泡在线监测氧化锌纳米线生长, 2017年中国光纤传感学术会议暨产业化论坛, 北京, Oct. 14-16, 2017. (张贴报告)

[7] Xizhen Xu, Yingjie Liu ,Bing Sun, Changrui Liao, Shen Liu, Guolu Yin, Kaiming Yang, Yijian Huang, and Yiping Wang, “High-sensitivity bend sensor based on Mach-Zender interference using photonic crystal fiber,” The Optoelectronics Global Conference 2015 (OGC-2015), Shenzhen, PS-30_S6-b.01, 2015. (特邀报告)

[8] Xunzhou Xiao, Jun He,* Baijie Xu, Bin Du, Xizhen Xu, and Yiping Wang, “Multicore Fiber Bragg Gratings Array Shape Sensor Fabricated with an Auto-Alignment Femtosecond Laser Point-by-Point Technology, 2021 19th International Conference on Optical Communications and Networks (ICOCN 2021), Qufu, 2021.

[9] Runxiao Chen, Jun He,* Xizhen Xu, Changrui Liao, and Yiping Wang, “Silt-Beam Shaping Method for Femtosecond Laser Point-by-Point Inscription of Highly Localized Fiber Bragg Gratings with Enhanced Cladding Modes, 2021 19th International Conference on Optical Communications and Networks (ICOCN 2021), Qufu, 2021.

[10] Baijie Xu, Jun He,* Xizhen Xu, Jia He, Ziyong Chen, and Yiping Wang, “Femtosecond-Laser-Inscribed Fiber Bragg Grating Array for Quasi-Distributed High-Temperature Sensing, Sixteenth National Conference on Laser Technology and Optoelectronics, 2021, Shanghai, China

[11] Bin Du, Jun He, Kuikui Guo, Xizhen Xu, Ying Wang, and Yiping Wang, “Polymer-Filled In-Fiber Mach-Zehnder Interferometer with Pt-loaded WO3 Coating for Trace Hydrogen Detection,” Communications and Photonics Conference 2020 (ACP-2020), Beijing, T2A.2, 2020.

[12] Jun He, Xizhen Xu, Changrui Liao, Yiping Wang, “Femtosecond Laser-inscribed Multimode Fiber Bragg Gratings,” 2019 Photonics & Electromagnetics Research Symposium - Fall (PIERS - Fall), Dec 17-20, 2019. (口头报告)

[13] Fengchan Zhang, Jun He, Xizhen Xu, Bin Du, and Yiping Wang, “Sensitivity-enhanced Temperature Sensor Based on Cascaded Polymer-infiltrated Mach-Zehnder Interferometers Created in Graded Index Fibers,” 2019 Photonics & Electromagnetics Research Symposium - Fall (PIERS - Fall), Dec 17-20, 2019. (口头报告)

[14] Jun He, Xizhen Xu, Changrui Liao, Chao Wang, Yiping Wang, “Femtosecond-Laser-Inscribed Fiber Bragg Gratings for High-Tempertature Sensing, Asia Communications and Photonics Conference (ACP) 2018, Hangzhou, Oct 26-29, 2018.(口头报告)

[15] Fengchan Zhang, Jun He, Xizhen Xu, Yiping Wang, “Highly sensitive temperature sensor based on a Mach-Zehnder interferometer created in graded index fiber, Asia Communications and Photonics Conference (ACP) 2018, Hangzhou, Oct 26-29, 2018.(口头报告)

[16] Jinshan Xu, Xizhen Xu, Ying Wang, Mi Deng, Changrui Liao, Jun He, and Yiping Wang,“Improving the refractive index sensitivity of long period fiber grating with coating ZnO thin film,” 16th International Conference on Optical Communications and Networks (ICOCN),2017. (张贴报告)

[17] Jun He, Changrui Liao, Kaiming Yang, Chupao Lin, Chao Wang, Feng Zhu, Xizhen Xu, Kuikui Guo, Tianhang Yang, Maoxiang Hou, Ying Wang, and Yiping Wang, “Femtosecond-laser-inscribed fiber Bragg gratings for sensing applications,” The 16th International Conference on Optical Communications and Networks (ICOCN 2017), Wuzhen, Zhejiang, Aug. 7-10, 2017. (特邀报告)


四、发明专利

Ø授权中国发明专利

[1]王义平、徐锡镇、廖常锐,一种光纤生长氧化锌纳米线及其制备方法和装载模具,中国发明专利,专利号:ZL201510376577.7,申请日:2015.06.30,授权日:2016.09.21

[2]王义平、徐锡镇、王英、廖常锐,一种小型光纤器件湿度测试箱,中国发明专利,专利号:ZL201510813085.X,申请日:2015.11.19,授权日:2018.04.28。

[3]何俊、王义平、黄伟、徐锡镇,一种光纤压力传感器及其制作方法,中国发明专利,专利号:ZL201811562376.6,申请日:2018.12.20,授权日:2020.12.04。


Ø授权实用新型专利

[1]徐锡镇、王义平、刘申、王英、廖常锐、许金山、李明全,一种光纤液位测量仪,中国实用新型,专利号:ZL201620988896.3,申请日:2016.08.30,授权日:2017.04.05。

[2]徐锡镇、王义平、王英、廖常锐、刘申、许金山、李明全,一种光纤液位传感器,中国实用新型,专利号:ZL201620988516.6,申请日:2016.08.30,授权日:2017.04.05。

[3]徐锡镇、何俊、王义平、鞠帅,一种新型光纤传感器的封装系统,中国实用新型,专利号:ZL201721861069.9,申请日:2017.12.27,授权日:2018.08.03。

[4]徐锡镇、何俊、王义平,一种光纤连接器,中国实用新型,专利号:ZL201720379343.2,申请日:2017.04.12,授权日:2018.01.05。

[5]徐锡镇、何俊、王义平,单模蓝宝石光纤光栅和传感器,中国实用新型,专利号:ZL201820329010.3,申请日:2018.03.09,授权日:2018.11.06。

[6]徐锡镇、何俊、王义平、侯茂祥,一种光纤弯曲传感器,中国实用新型,专利号:ZL 201820771959.9,申请日:2018.05.23,授权日:2019.01.11。

[7]徐锡镇、何俊、王义平、许金山、刘申、廖常锐、王英,温压测量系统,中国实用新型,专利号:ZL201820449300.1,申请日:2018.03.30,授权日:2019.01.11。

[8]徐锡镇、王义平、王冠军、廖常锐,用于辅助制备光纤生长氧化锌纳米线的装载模具,中国实用新型,专利号:ZL201520461098.0,申请日:2015.06.30,授权日:2016.01.20。

[9]徐锡镇、王义平、廖常锐、王英,小型光纤器件湿度测试箱,中国实用新型,专利号:ZL201520933879.5,申请日:2015.11.19,授权日:2016.06.01。

[10]许百杰、何俊、徐锡镇王义平一种可调控双折射的光纤光栅制备装置中国实用新型专利号:ZL202120291998.0申请日:2021.02.02授权日:2021.09.10

[11]贺佳徐锡镇何俊王义平一种光纤传感器的气密式封装结构及封装装置中国实用新型专利号:ZL202022937334.5申请日:2020.12.10授权日:2021.07.02

[12]陈梓泳、何俊、徐锡镇、王义平、赵雄涛、张宇鹏,一种切趾光纤光栅,中国实用新型,专利号:ZL202021123936.0,申请日:2020.06.17,授权日:2021.03.23。

[13]张凤婵、徐锡镇、何俊、王义平,基于自聚焦光纤的折射率传感器及其制备系统,中国实用新型,专利号:ZL201821469172.3,申请日:2018.09.06,授权日:2019.04.26。

[14]黄伟、何俊、王义平、徐锡镇,一种光纤压力传感器,中国实用新型,专利号:ZL201822143930.9,申请日:2018.12.20,授权日:2019.5.20。

[15]郭奎奎、王义平、何俊、徐锡镇,相移光纤布拉格光栅制备装置和相移光纤布拉格光栅,中国实用新型,专利号:ZL201721546792.8,申请日:2017.11.17,授权日2018.9.11。

[16]许金山、王义平、王英、何俊、廖常锐、徐锡镇,长周期光纤光栅折射率传感器及折射率检测装置,中国实用新型,专利号:ZL201720560037.9,申请日:2017.05.19,授权日:2018.02.16。

[17]周佳立、顾锐锐、胡晓明、朱李核、徐锡镇、张明,单摄像机立体视觉系统,中国实用新型,专利号:201220360127.0,申请日:2012.07.23,授权日:2013.04.2



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