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个人简介

一、个人简介 祝远锋,1979年11月生,2003年本科毕业于鲁东大学物理学专业,2006年硕士毕业于天津大学光学专业,2014博士毕业于江苏大学机械制造及其自动化专业。2006年5月进入江苏大学机械学院光电系工作,2014年11月由江苏大学调入江西师范大学物理与通信电子学院工作至今。现同时从事上海大学通信工程专业博士后工作。申请人一直从事光纤方向的数值模拟和制作工艺的研究工作,研究了有限元法、多极法、平面波展开法、光束传播法等多种光纤分析方法。采用3D打印技术成功制备了反谐振型空芯THz光纤。发表论文20余篇,申请发明专利10余项,获排名第一的国家授权发明专利6项。 讲授课程: 1 激光原理与技术 光电专业本科生 2 半导体物理 光电专业本科生 3 光纤技术与器件应用 物理学硕士生 4 光纤通信网络 光学工程硕士生 专利 已授权发明专利: [1] 祝远锋; 叶志清; 饶春芳; 王祖俭,一种多谐振层空心光纤,授权公告日:2020.05.12,中国,ZL201811246442.9 [2] 祝远锋; 刘鑫; 钟华; 饶春芳,一种低损耗太赫兹偏振分束器,授权公告日:2019.11.19,中国,ZL201711081180.0 [3] 祝远锋; 陈明阳; 张永康; 杨继昌; 杨阳; 刘玥, 一种太赫兹偏振分束器, 授权公告日:2016.1.20, 中国, ZL201310666221.8 [4] 祝远锋; 张永康; 陈明阳; 杨继昌; 曹祥祥; 孙浩; 石琳, 一种高双折射太赫兹光纤, 授权公告日:2015.8.26, 中国, ZL201310667064.2 [5] 祝远锋; 张永康; 陈明阳; 杨继昌, 一种太赫兹多孔光纤, 授权公告日:2015.2.4, 中国, ZL201210583899.5 [6] 祝远锋; 张永康; 陈明阳; 杨继昌, 一种微结构光纤表面等离子体共振传感器, 授权公告日:2014.6.25, 中国, ZL201210081119.7 [7] 陈明阳; 祝远锋; 张永康, 一种低弯曲损耗光纤, 授权公告日:2013.10.23, 中国, ZL201110356520.2 [8] 王华; 陈明阳; 祝远锋; 蔡志民; 李路明; 陈磊; 陈鹍; 陈健, 一种多层光纤, 授权公告日:2017.2.8, 中国, ZL201310078282.2 [9] 王华; 陈明阳; 祝远锋; 蔡志民; 李路明; 陈鹍; 陈健; 陈磊; 杨济海, 一种低弯曲损耗微结构光纤, 授权公告日:2015.3.11, 中国, ZL201310078237.7 (专利) [10] 王华; 陈明阳; 祝远锋; 王学锋; 李路明; 杨济海; 龚天翼, 一种基于少模光纤的通信系统, 授权公告日:2015.7.8, 中国, CN201210393511.5 [11] 陈明阳; 张永康; 祝远锋; 孙兵; 付晓霞, 一种大模场微结构光纤, 授权公告日:2012.6.20, 中国, ZL201010590795.8 [12] 陈明阳; 张永康; 佟艳群; 祝远锋, 一种大模场光纤, 授权公告日:2012.5.23, 中国, ZL201010589053.3 申请发明专利 [1] 祝远锋; 饶春芳; 张莹; 邹光涛; 罗海梅,一种微结构空心光纤,申请日:2018.02.11,中国,201810142943.6 [2] 祝远锋; 饶春芳; 罗海梅; 夏高辉; 周海娇; 刘鑫,一种低损耗空心光纤2018.02.11,中国,申请日:201810142945.5 科研课题 1. 国家自然科学青年基金项目,11804133,基于硫系相变薄膜光栅的混合等离子波导电光调制特性研究,2019.1.1-2021.12.31,27万元,在研,参加(排名第二); 2. 江西省科技厅科技项目,GJJ170185太赫兹光纤的设计、制备及其传输特性研究,2018.1-2019.12,3 万元、在研、主持; 3.重点实验室开放基金,GZ201201,基于微结构光纤的表面等离子共振传感器的研究,2012/10-2014/10,2 万元、已结题、主持; 4.国家自然科学青年基金项目,10904051,高功率光纤激光器用包层折射率渐变型大模场微结构光纤研究,2010/01-2012/12,20 万元,已结题,参加(排名第二);

研究领域

光纤通信器件设计、制备及应用;低损耗THz器件设计;3D打印THz器件研究;光纤传感在物联网中的应用等

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

[1]Yuan-Feng Zhu, Ming-Yang Chen and Yunqi Liu*, “Nested Low-Loss Hollow Core Fiber, ” IEEE Journal of Selected Topics in Quantum Electronics, 26,4500106 (2020) [2]Sen Mei, Depeng Kong*, Li Li Wang, Tian Ma, Yuanfeng Zhu, Xiaodong Zhang, Zhengquan He, Xiangsheng Huang and Yani Zhang, “Suspended graded-index porous core POF for ultra-flat near-zero dispersion terahertz transmission, ” Optical Fiber Technology, 52, 101946(2019) [3] Yuan-Feng Zhu, Xin Liu, Chun-Fang Rao, Hua Zhong, Hai-Mei Luo, Yan-Hua Chen, Zhi-Qing Ye and Hua Wang*, “Low-loss terahertz polarization splitter based on an asymmetric dual-suspended-core fiber,” Optical Engineering, 57, 086112 (2018) [4]Yuan-Feng Zhu*, Depeng Kong, Zhi-Qing Ye, Chun-Fang Rao, Hua Zhong, “Single-polarization operation in suspended-core microstructured fibers,” Photonics and Nanostructures – Fundamentals and Applications , 28, 6~11, (2018) [5] Yuan-Feng Zhu*, Ming-Yang Chen and Hua Wang, “A Low-Loss Terahertz Fiber With Crossed Rectangular Shaped Dielectric Strips,” IEEE Transactions on Terahertz Science and Technology, 5, 751~760 (2015) [6]Yuan-Feng Zhu*, M. Y. Chen, H. Wang , Y. K. Zhang, J. C. Yang, “A low transmission loss THz polarization splitter based on dual-core optical fiber,” Photonics and Nanostructures – Fundamentals and Applications , 12, 184~188, (2014) [7]Zhu Yuanfeng, Chen Mingyang*, Wang Hua,Zhang Yongkang, Yang Jichang, “Design of a Surface-Plasmon-Resonance Sensor Based on a Microstructured Optical Fiber with Annular-Shaped Holes,” Plasma Science and Technology, 16, 867~872, (2014) [8]Yuan-Feng Zhu, Ming-Yang Chen*, Hua Wang, Hong-Bing Yao, Yong-Kang Zhang and Ji-Chang Yang, “Design and Analysis of a Low-Loss Suspended Core Terahertz Fiber and Its Application to Polarization Splitter,” IEEE Photonics Journal, 5, 7101410 (2013) [9] Hua Wang, Ming-Yang Chen*, Yuan-Feng Zhu, Shen-Yi Li,Ping Yin,Xiao-Sheng Wu,Ren-Hua Li, Zhi-Min Cai, Ping-Ping Fu, Hong Qin and Jin Wei,“Design and demonstration of single-mode operation in few-mode optical fiber with low-bending loss,” Optical Engineering, 56, 016103(2017) [10] Hua Wang, Yuan-Feng Zhu, Ping-Ping Fu and Ning Zhou, “Research of a Single-polarization Suspended-core Micro-structured Fiber,” Progress in Electromagnetic Research Symposium (PIERS), 4898~4900(2016) [11] Hua Wang, Ming-Yang Chen, Xiao-Sheng Wu, Ren-Hua Li, Zhi-Min Cai, Lu-Ming Li, Ji-Hai Yang, Yuan-Feng Zhu and Ping-Ping Fu, “Single-mode operation in few-mode optical fibre based on resonant coupling,” Journal of Modern Optics,64,866~870, (2017) [12]Hua Wang, Ming-Yang Chen, Yuan-Feng Zhu, Zhi-Min Cai, Lu-Ming Li, Kun Chen, Jian Chen, Lei Chen and Ji-Hai Yang, “Design of few-mode microstructured optical fibers with low bending loss,” Optical Engineering,52, 086106, (2013) [13] Hua Wang, Ming-Yang Chen, Yuan-Feng Zhu, Zhi-Min Cai, Lu-Ming Li, Kun Chen, Jian Chen, Lei Chen and Ji-Hai Yang, “Few-mode step-index optical fibers with ultra-low bending losses, ” Journal of Russian Laser Research, 34, 298~302(2013) [14] Ming-Yang Chen*,Yu-Rong Li,Yin Zhang,Yuan-Feng Zhu,Yong-Kang Zhang and Jun Zhou,“Design of dual-mode optical fibres for the FTTH applications,” Journal of Optics, 13, 015402 (2011) [15] Mingyang Chen, Yongkang Zhang, Yuanfeng Zhu, Yanqun Tong and Jun Zhou, “Broadband directional coupler based on asymmetric dual-core photonic crystal fiber,” Chinese Journal of Laser, 36, 635~639 (2009)

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