秦玉文 教授

作者: 时间:2020-07-10 点击数:


秦玉文 QINYUWEN 教授

所属学院:信息工程学院

导师类别:硕导、博导

职称:二级教授

职务:先进光子技术研究院院长

科研方向:光纤通信、光纤传感

联系方式:qinyw@gdut.edu.cn

博士招生学院:信息工程学院

硕士招生学院:信息工程学院



个人简述:

先进光子技术研究院院长,广东省“珠江人才计划”引进创新创业团队带头人,通感融合光子技术教育部重点实验室主任。中国光学工程学会常务理事、光学学会纤维光学与集成光学专委会副主任委、《Light: Science &Applications》等学术期刊编委,北京交通大学兼职教授博导。主要从事光纤通信和光纤传感等研究工作,主持国家重点研发计划、国家自然科学基金重点、广东省重大专项、广东省“珠江人才计划”引进创新创业团队等项目。已发表SCI收录论文150余篇,授权国内外发明专利60余件,翻译专著1本。获陕西省科学技术进步二等奖、中科院西安分院和陕西省科学院科技进步一等奖、中国科学院自然科学三等奖、中国光学工程学会金燧奖金奖和银奖各一项。


工作经历:

19819月至19898月,河南省平顶山市师范学校教师;

19964月至19988月,北京交通大学光波技术研究所博士后、副教授;

19989月至20187月,国家自然科学基金委员会信息科学部;

200010月至20019月,Virginia Polytechnic Institute and State University博士后、高级访问学者;

20188月至今,广东工业大学信息工程学院


学术兼职:

光学工程学会常务理事

光学学会纤维光学与集成光学专委会副主任委

Light: Science &Applications》和《Light: Advanced Manufacturing》编委

光子学报第十一届编委会副主任

光学学报网络版第一届编委

光学工程学会光纤传感技术专家工作委员会暨中国光纤传感技术及产业创新联盟副主席

中国光学工程学会激光诱导击穿光谱专业委员会副主任

哈尔滨工业大学可调谐(气体)激光技术国家级重点实验室学术委员会委员

中科院西安光机所超快光科学与技术全国重点实验室第一届学术委员会委员

西北工业大学光场调控与信息感知工信部重点实验室副主任

深圳大学光电子器件与系统教育部/广东省重点实验室学术委员会副主任

中山大学光电信息处理芯片与系统广东省重点实验室学术委员会主任

北京交通大学兼职教授博导(联合培养博士1名)。

南方海洋科学与工程广东省 实验室(珠海)海洋信息感知与融合创新团队教授(与香港理工大学联合培养博士1名)

国家重点研发计划“基于多芯光纤的大容量海洋通信系统关键技术研究”等多个项目的咨询或顾问专家


主要荣誉:

获陕西省科学技术进步二等奖

中科院西安分院和陕西省科学院科技进步一等奖

中国科学院自然科学三等奖

中国光学工程学会金燧奖金奖

中国光学工程学会金燧奖银奖


主要论文:

1. Yue Wang, Cong Zhang*, Songnian Fu, Yuwen Qin*, Impact of capillary material intrusion on the photonic lantern performance, Optics Express, 33(9): 19108-19118,2025

2. Di Peng, Zhihao Tang, Hang Xiao, Ya Han, Quandong Huang, Songnian Fu, Jianping Li, Meng Xiang, Yuwen Qin*, High-performance Microwave Signal Generation in Injection-locked Optoelectronic Oscillator via Delay-matching Frequency-conversion Filtering, Journal of Lightwave Technology, (Early Access), 2025

3. Hang Xiao, Di Peng*, Weiquan Hong, Yu Cao, Ya Han, Quandong Huang, Shuoyang Qiu, Meng Xiang, Jianping Li, Songnian Fu, Yuwen Qin*, Injection locking-enabled supermode noise suppression for harmonically mode-locked optoelectronic oscillator, Journal of Lightwave Technology, 43(7): 3051-3058, 2025

4. Shiwei Luo, Jianping Li*, Xinkuo Yu, Yuwen Qin*, Ning Lin, Ou Xu, Meng Xiang, Songnian Fu, An Improved Kramers-Kronig Receiver with Upsampling-free and Low Carrier-to-Signal Power Ratio, Journal of Lightwave Technology, 42(19): 6731-6738, 2024

5. Yan Zeng, Cong Zhang *, Senyu Zhang, Yihong Fang, Xiheng Huang, Xinyi Zhang, Jianping Li, Ou Xu, Songnian Fu, Yuwen Qin *, All-fiber spatial and wavelength gain-flattening of few-mode EDFA via mode selective coupler, Optics and Laser Technology, 181:11178, 2025

6. Lin Gu, Tuqiang Pan, Yi Xu*, Di Lin, Songnian Fu, Yuwen Qin*, Learning to predict soliton dynamics in fiber lasers using a recurrent neural network with high accuracy, Optics and Laser Technology, 181: 111996, 2025

7. Huaisheng Tu, Haotian Li, Tuqiang Pan, Wuping Xie, Zohao Ma, Fan Zhang, Pengbai Xu, Leiming Wu, Ou Xu, Yi Xu*, Yuwen Qin*, Deep empirical neural network for optical phase retrieval over a scattering medium, Nature Communications, 16(1): 1369, 2025

8. Jiazhen Dou, Yujian Mai, Wenjun Jiang, Kaiqiang Wang, Liyun Zhong, Jianglei Di*, Yuwen Qin*. Vector modulation of fully-polarized phase conjugate light field through scattering media. Optics and Laser Technology, 181 (2025),111987

9. Shan Wang, Di Lin*, Xin Zhang, Ziheng Zhuang, Weijia Luo, Cong Zhang, Meng Xiang, Jianping Li, Songnian Fu, Pu Wang, Yuwen Qin*, 10-MW-level peak power Mamyshev oscillator enabled by anti-resonant hollow-core fiber, High Power Laser Science and Engineering, 1-23, 2025

10. Mingxiu Yuan, Di Peng*, Songnian Fu, Jianping Li, Meng Xiang, Yuwen Qin*, Multi-Band Radar Based on a Cavity-Less Ultra-Short Optical Pulse Source for Simultaneous Measurement of Distance and Velocity, Journal of Lightwave Technology, 42(9): 3228-3236, 2024

11. Yihong Fang, Cong Zhang, Xiheng Huang, Xinyi Zhang, Yan Zeng, Ou Xu*, Jianping Li, Songnian Fu, Yuwen Qin*, Simultaneous realization of high gain and low DMG of four-mode EDFA under bidirectional hybrid-mode pump, Optics Express, 32(6):9332-9342, 2024

12. Jiangli Dong, Yang Yang, Yan Zeng, Yiqing Xu, Ou Xu, Songnian Fu, Yuwen Qin*, Real-time spectroscopy of modulation-instability-mediated optical wave breaking in normal dispersion, Optics and Lasers in Engineering, 175: 108034, 2024

13. Yihong Fang, Xinyi Zhang, Xiheng Huang, Yan Zeng, Ou Xu*, Jianping Li, Songnian Fu and Yuwen Qin*, Mode-dependent dynamic gain of all-fiber FM-EDFA under various pump manipulation, Chinese Optics Letters, 22(2): 021403, 2024

14. Cong Zhang, Yue Wang, Senyu Zhang, Meng Xiang, Songnian Fu, and Yuwen Qin*, Low-loss and compact photonic lantern based on a step-index double cladding fiber, Optics Letters, 49(9):2277-2280, 2024

15. Zhanyuan Zhang, Zhihao Lan, Pengbai Xu, Leiming Wu, Menglin L. N. Chen, Wei E. I. Sha, Yi Xu*, Yuwen Qin*, Observation of spatiotemporal dynamics for topological surface states with on-demand dispersion, Photonics Research, 12(12):2919-2930, 2024

16. Di Peng, Weiquan Hong, Hang Xiao, Ya Han, Quandong Huang, Shuoyang Qiu, Jianping Li, Meng Xiang, Songnian Fu, Yuwen Qin*, Freely tunable phase-locked dual-frequency microwave signal generation from injection-locked broadband optoelectronic oscillator, Optics Express, 32(23):41857-41869, 2024

17. Tuqiang Pan, Jianwei Ye, Haotian Liu, Fan Zhang, Pengbai Xu, Ou Xu, Yi Xu* & Yuwen Qin*. Non-orthogonal optical multiplexing empowered by deep learning. Nature Communications, 2024, 15: 1580.

18. Zejun Chen, Junjiang Xiang, Hailin Yang, Gai Zhou, Meng Xiang, Songnian Fu, AND Yuwen Qin*. Transmitter dispersion eye closure quaternary assessment based on linear CNN with 1 × 1 convolutional kernel. Optics Letters, 2023, 48(23): 6196-6199.

19. Mingxiu Yuan, Di Peng*, Yuwen Qin*, Jianping Li, Meng Xiang, Ou Xu and Songnian Fu. Broadband microwave photonic mixer with flexibly tunable phase shift and supporting dispersion-induced power fading-free fiber transmission. Photonics, 2023, 10, 432.

20. Leiming Wu, Xixi Yuan, Yuxuan Tang, S. Wageh, Omar Al-Hartomy, Abdullah Al-sehemi, Jun Yang*, Yuanjiang Xiang*, Han Zhang*, Yuwen Qin*, MXene sensors based on optical and electrical sensing signals: from biological, chemical, and physical sensing to emerging intelligent and bionic devices, PhotoniX, 4: 1-56, 2023

21. Qinqin Zhuang, Cuofu Lin, Zhangjun Yu*, Kunhua Wen, Pengbai Xu, Jun Yang, Yuncai Wang, Yuwen Qin*, SNR Improvement of Optical Frequency Domain Polarimetry Against Laser Frequency Sweep Nonlinearity, Journal of Lightwave Technology, 41(17): 5614-5621, 2023

22. Jianwei Ye, Tuqiang Pan, Kanpei Zheng, Zhichao Luo, Yi Xu*, Songnian Fu, Yuncai Wang, and Yuwen Qin*, Light field information transmission through scattering media with high fidelity, Chinese Optics Letters, 21 (12): 121101-, 2023

23. Gao Ye, Xiang Junjiang, Gai Zhou, Meng Xiang*, Li Jianping, Yuwen Qin*, and Songnian FuImpact of Input OSNR on the Data-driven Optical Fiber Channel ModelingJournal of Optical Communications and Networking, 15(2):78-86,2023

24. Zhiwei Ye, Jilong Li*, Yuwen Qin*, Meng Xiang, and Songnian Fu, Characterization of differential modal group delay in few-mode fiber using a digital re-sampling technique, Optics Letters, 48: 223-226, 2023

25. Gai Zhou; Songnian Fu; Meng Xiang; Alan Pak Tao Lau; Yuwen Qin*, Accurate Computation of b-coefficients in Nonlinear Fourier Transform for the Manakov Equation, Journal of Lightwave and Technology, 41(16): 5328-5339,2023

26. Pengbai Xu, Huapeng Guo, Xiaolong Wang, Lei Shen, Kunhua Wen, Yuehui Sun, Dexin Ba, Yongkang Dong, Xinyong Dong, Jun Yang, and Yuwen Qin*, Ring-core few-mode fiber and DPP-BOTDA-based distributed large-curvature sensing eligible for shape reconstruction, Optics Express, 30(23):42553-42563 2022

27. Hailin Yang, Shan Wang, Di Peng, Yuwen Qin*, Songnian Fu, “Optically powered 5G WDM fronthaul network with weakly-coupled multicore fiber”, Optics Express, 30(11): 19795-19804, 2022

28. Yi Xu, Kanpei Zheng, Jumei Shang, Weiming Yuan, Songnian Fu, Huihui Lu*, Yuncai Wang, and Yuwen Qin*Wavefront shaping for reconfigurable beam steering in lithium niobate multimode waveguideOptics Letters, 47(2): 329-332, 2022

29. Meng Xiang, Songnian Fu, Ou Xu, Jianping Li, Di Peng, Zhensen Gao, Yuncai Wang, and Yuwen Qin*. Advanced DSP Enabled C-band 112 Gbit/s/λ PAM-4 Transmissions with Severe Bandwidth-constraint. Journal of Lightwave Technology, 2022, 40(4): 987-996.

30. Shan Wang, Hailin Yang, Yuwen Qin*, Di Peng, and Songnian Fu. Power-over-fiber in support of 5G NR fronthaul: space division multiplexing versus wavelength division Multiplexing. Journal of Lightwave Technology, 2022, 40(13): 4169-4177.

31. Jilong Li, Songnian Fu, Xiangzhi Xie, Meng Xiang, Feifei Yin, Yitang Dai, and Yuwen Qin. Optically magnified dispersion of microwave signals with a wide and flexible tunable range. Optics Letters, 2022, 47(5): 1057-1060.

32. Di Peng, Huaqing Li, Yuwen Qin*, Jianping Li, and Songnian Fu. Robust wide-range chirp rate measurement based on a flexible photonic fractional Fourier transformer. Optics Express, 2022, 30(5): 7750-7762.

33. Weiqin Zheng, Yuwen Qin*, Ou Xu, Meng Xiang, Di Peng, Songnian Fu, and Jianping Li*. Wideband low confinement loss anti-resonant hollow core fiber with nested U-shape tube. Optics Express, 2021, 29(15): 24182-24192.

34. Yihong Fang, Yan Zeng, Yuwen Qin*, Ou Xu, Jianping Li, and Songnian Fu. Design of Ring-Core Few-Mode-EDFA With the Enhanced Saturation Input Signal Power and Low Differential Modal Gain. IEEE Photonics Journal, 2021, 13(4): 7200506.

35. Shan Wang, Yuwen Qin*, Ou Xu, Jianping Li, and Songnian Fu. Polarization-Maintaining Multi-Core Few-Mode Fiber With a Cladding Diameter of 125 μm. IEEE Photonics Journal, 2021, 13(3): 7200210.

36. Hailin Yang, Di Peng*, Yuwen Qin*, Jianping Li, Meng Xiang, Ou Xu, and Songnian Fu. 10-W power light co-transmission with optically carried 5G NR signal over standard single-mode fiber. Optics Letters, 2021, 46(20): 5116-5119.

37. Yan Zeng, Yihong Fang, Yuwen Qin*, Ou Xu, Jianping Li, and Songnian Fu. Rigorous FM-EDF design with an oversized two-layer erbium ion distribution for C-band DMG mitigation. Journal of the Optical Society of America B, 2021, 38(12): F1-F7.

38. Pengbai Xu, Xinfeng Yu, Zeji Chen, Liwen Sheng*, Jiaqing Liu, Shuai Zhou, Kunhua Wen, Ou Xu, Xinyong Dong, Jun Yang, and Yuwen Qin*, Distributed refractive index sensing based on bending-induced multimodal interference and Rayleigh backscattering spectrum, Optics Express, 29(14): 21530-21538, 2021

39. Pengbai Xu, Ou Xu, Xinyong Dong, Jun Yang, Yuwen Qin*. Investigation of the effect of gold coating of gold-coated fiber on distributed strain measurement by DPP-BOTDA. Applied optics, 2019, 58(31): 8376-8382.

40. Wu Leiming, Wei Songrui, Zhang Yule, Zhang Ye*, Xiang Yuanjiang*, Zhang Han*, Qin Yuwen*, Tunable Nonlinearity in 2D Graphdiyne Oxide for High‐Performance All‐Optical Modulation, Advanced Optical Materials, 10(12):2195-1071, 2022



知识产权:

1. 秦玉文,刘丽娟,彭迪,杨海林,付松年,李建平,向梦,许鸥,一种光纤能量信息共传系统的安全监测方法及装置,中国,发明专利,授权日:2022.06.21,专利号:ZL202110986061.X

2. 秦玉文,王珊,付松年,杨海林,彭迪,一种适用于信能共传系统的超模光纤,授权日:2024.05.03,专利号:ZL 202210240960.X

3. 秦玉文,李培炯,黄明阳,喻张俊,杨军,徐鹏柏,温坤华,王云才, 一种基于双拍频单辅助干涉仪的分布式双向偏振测量装置, 授权日:2023.12.26,专利号:ZL202110941018.1

4. 高震森,马子洋,安跃华,王云才,秦玉文,一种用于无线回传及协同通信的光学调制系统及方法,授权日: 2021.08.24,专利号:ZL202010174303.0

5. 许鸥,朱祥,秦玉文,陈哲,梁嘉琪, 50G-PON网络中基于神经网络预测的上行带宽分配方法, 授权日:2022.08.05, 专利号:ZL202110276560.X

6. 彭迪,许留柱,付松年,李建平,向梦,许鸥,秦玉文,一种基于光频梳的多频段微波光子变频系统,授权日:2022.06.17,专利号:ZL202110985547

7. 彭迪,袁明秀,付松年,李建平,向梦,许鸥,秦玉文,一种相位可调的微波光子变频系统及其实现方法,授权日:2023.7.25,专利号:ZL202110622882.5

8. 吕红,向梦,付松年,王云才,秦玉文,一种数字副载波复用信号的频偏处理方法及系统,授权日:2022.12.09,专利号:ZL2021104778820.

9. 向梦,邱泳锋,付松年,秦玉文, 基于LSTM神经网络的光纤链路多径干扰噪声均衡方法, 授权日:2024.07.19,专利号:ZL202310080429.5

10. 向梦,周培坚,付松年,秦玉文,一种基于权重判决反馈的多维复用信号恢复方法及系统,授权日:2024.01.02,专利号:ZL 202210467465.2

11. 付松年,吴锐涛,向梦,李基隆,秦玉文,基于导频辅助的相干光通信系统发射端I/Q时延监测方法,授权日:2023-08-25,专利号:ZL2022109453923

12. 李建平, 欧杰, 秦玉文, 郑伟钦, 许鸥, 彭迪, 向梦, 付松年, 一种少模空芯反谐振光纤, 授权日:2023.02.23,专利号:ZL202210691297.5

13. 徐毅,潘土强,秦玉文,基于深度学习的多模光纤非正交光传输复用系统及方法,授权日: 2024.09.20,专利号:ZL202310908493.8

14. 许鸥, 陈哲,梁嘉琪,肖文才,秦玉文, 一种基于多头注意力机制的相关网络流量预测方法, 授权日:2024.12.20,专利号:ZL202210841515.9

15. 杨军,黄明阳,李培炯,喻张俊,徐鹏柏,温坤华,王云才,秦玉文,一种基于光频域干涉的光纤器件分布式双向偏振测量装置,授权日: 2022.07.19,专利号:ZL202110817520.1

16. 杨军,喻张俊,张浩亮,余鑫峰,王云才,秦玉文,一种保偏光纤环分布式偏振串扰双向同时测量装置及方法,授权日: 2022.09.06,专利号:ZL 2020107485032

17. 杨军,叶志耿,余鑫峰,庄芹芹,喻张俊,徐鹏柏,温坤华,王云才,秦玉文,一种基于频率调制的相位敏感光时域反射装置及方法,授权日: 2022.07.26,专利号:ZL 2020113903632

18. 喻张俊,杨军,侯成城,蒋泽军,王云才,秦玉文,一种用于保偏光纤的高精度分布式消光比测量方法,授权日期:2022.8.12,专利号:ZL 202010740511.2

19. 徐鹏柏,郑梓燊,叶志耿,余鑫峰,喻张俊,温坤华,杨军,王云才,秦玉文,一种基于非对称双边带啁啾脉冲调制的光时域反射计,授权日: 2022.10.14,专利号:ZL113810099B

20. 喻张俊,朱庭毅,庄芹芹,杨军,徐鹏柏,温坤华,王云才,秦玉文. 一种基于光频域最优移频干涉的分布式偏振串音测量装置, 授权日:2023.12.26,专利号:ZL202110817547.0


科研项目:

1. 国家重点研发计划项目,基于新波段、新光纤、新放大高速光传输技术及系统验证,主持

2. 国家自然科学基金重点项目,面向多维复用的高速大容量安全光纤通信基础理论与关键技术研究,主持

3. 广东省重大专项项目,基于新光纤的通信与传感关键技术研究,广东省科技厅,主持

4. “珠江人才计划”引进创新创业团队项目,先进光子技术团队,广东省科技厅,主持;

5. 广东省重大专项项目,光子-无线融合的分布式5G系统关键技术,第二主持人;

6. 长飞光纤光缆股份有限公司-广东工业大学联合创新实验室建设项目,主持人。


我的团队:

隶属于信息工程学院先进光子技术研究院,团队主要从事光纤通信及其保密通信、光纤传感、光学信息处理、光纤激光器等方面的研究工作。团队有教授17名,副教授22名。其中国家级人才8名,博导15名,硕导32名。


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