南开大学光纤光子学与光通信传感技术研究团队，成立于 20 世纪 90 年代，是国内最早从事光纤光子器件、光通信、光 传感技术的研究单位之一，国内外有较高知名度，已培养出一大批光纤光子学领 域的优秀领军人才（正高级职称 30+，杰青等国家级人才 5+），正活跃在国内诸 多高校、中科院及航空航天研究所。

    研究团队先后出色完成“国家科技攻关”、“国家 973 计划”、“国家 863 计划”、国家自然科学基金重点等 80 余项课题的研究，发表 SCI 索引论文数百 篇，累计他引上万次，获国家发明和实用新型专利数十项，研究成果获天津市自 然科学一等奖、天津市技术发明一等奖、教育部自然科学二等奖等 6 次，成果达到国际先进，国内领先水平。出版学术著作 20 余部，获国家教学成果二等奖 2 项，国家级精品课 2 门。目前本团队已入选天津市 131 创新型人才团队和天津市 高层次创新创业团队。

    团队以掌握并驾驭光子成为信息科学与技术中优秀载子能力为研究目标，面 向信息传输与处理领域的重大需求，进行导波介质中光子的运动和互作用规律， 光波传播和与物质、物理场相互作用中的科学问题和基于光纤的重大应用中的技 术问题研究。目前主要面向多维复用光通信和光传感、环境监测、授时、人工智 能等领域的重大需求，开展基于光纤的微纳结构、光场调控、激光及放大、智能 信息处理等方面的应用基础及工程应用的研究工作。目前正在承担国家重点研发计划、国家自然科学基金重点等项目 15 项，省部及其他项目 10 余项，累计合同经费 3600 余万元。

    目前团队教师成员10余人（其中正教授 4 人，副教授 2 人）。在读博士生 20 余人（每年招收 6~8人）、在读硕士生 30 余人（每年招收 8~12 人）。

部分科研项目

国家自然科学基金青年科学基金项目，基于耗散参量调制不稳定性的中红外大梳齿间距光频梳研究，2023-1至2025-12，主持

其他部委国家级纵向项目，2023-11至2025-11，主持

国家自然科学基金面上项目，基于单腔多模光纤锁模激光器的双光梳和多光梳及气体吸收谱测量应用，2020-1至2023-12，参与

国家自然科学基金面上项目，片上跨倍频程克尔光频梳与时域腔孤子特性的研究， 2016-1至2019-12，参与

国家自然科学基金面上项目，基于掺铥锁模光纤激光器的中红外光频梳，2014-1至2017-12，参与

部分科研项目：

国家自然科学基金青年科学基金项目，基于耗散参量调制不稳定性的中红外大梳齿间距光频梳研究，2023-1至2025-12，主持

其他部委国家级纵向项目，2023-11至2025-11，主持

国家自然科学基金面上项目，基于单腔多模光纤锁模激光器的双光梳和多光梳及气体吸收谱测量应用，2020-1至2023-12，参与

国家自然科学基金面上项目，片上跨倍频程克尔光频梳与时域腔孤子特性的研究，2016-1至2019-12，参与

国家自然科学基金面上项目，基于掺铥锁模光纤激光器的中红外光频梳，2014-1至2017-12，参与

部分期刊论文：

更新至03/2025

1)      QingboWang, Pan Wang* (correspondingauthor), Zhi Wang, Jiangyong He, Qiaoqiao Xu, Shijie Sun, Zhifeng Shi, and Yan-geLiu.“Intermittent “invisible” soliton pulsations induced by the temporal gaindynamics in passively mode-locked fiber lasers,” ACS Photonics 12(1), 546-554 (2025).

2)      QiaoqiaoXu, Pan Wang* (corresponding author),Qingbo Wang, Jiangyong He, Hu Liang, Miao Yan, Zhi Wang, and Yan-ge Liu. “Revealingthe ultrafast soliton dynamics in an all-fiber self-starting Er Mamyshev oscillator,”Journal of Lightwave Technology 43(5),2304-2311 (2025).

3)      ZhifengShi, Shijie Sun, Qingbo Wang, Yan-ge Liu, Zhi Wang, and Pan Wang* (corresponding author). “Ultrafast soliton dynamics froman all-fiber self-starting thulium-doped Mamyshev oscillator,” Optics Letters 50(3), 1025-1028 (2025).

4)      ShijieSun, Zhifeng Shi, Qingbo Wang, Zhi Wang, Yan-ge Liu, Dong Xiang, and Pan Wang* (corresponding author). “Position-modulatedpulse train generation based on Möbius mode-locked fiber laser: Theory,” Journal of Lightwave Technology 42(23), 8383-8390 (2024).

5)      QiongqianhuiWang, Zhezhe Li, Qiaoqiao Xu, Shijie Sun, Zhi Wang, Pan Wang* (corresponding author), and Yan-ge Liu. “Nonlineardynamics of soliton explosion and pulsation in a Yb-doped mode-locked fiberlaser,” Optical Fiber Technology 88,103992 (2024).

6)      YicongLiu, Qinglong Liu, Qingbo Wang, Lingyi Xiong, Zhi Wang, Yan-ge Liu, and Pan Wang* (corresponding author). “Self-startingand repetition-rate-difference tunable dual combs in a bidirectionalmode-locked fiber laser,” Optics & Laser Technology 177, 111178 (2024).

7)      ShijieSun, Zhifeng Shi, Qingbo Wang, Zhi Wang, Yan-ge Liu, Dong Xiang, and Pan Wang* (corresponding author). “Real-timecharacterizations of soliton explosions and pulsations in a Tm-doped fiberlaser,” Optical Fiber Technology 84, 103753(2024).

8)      Pan Wang, Zhifeng Shi,Qingbo Wang, Jiangyong He, Zhi Wang, and Yan-ge Liu. “Thegeneration of ultrahigh repetition-rate OAM frequency combs in dual-concentric Germania-dopedring-core fiber,” Journal of Lightwave Technology 42(7), 2494-2498 (2024).

9)      ZhifengShi, Pan Wang* (correspondingauthor), Shijie Sun, Qingbo Wang, Zhi Wang, and Yan-ge Liu. “Transitionbetween quadratic and quartic solitons with OAM modes in passive driven fiber resonator,”Journal of Lightwave Technology 42(2),853-858 (2024).

10)   QiaoqiaoXu, Pan Wang* (correspondingauthor), Qingbo Wang, Jiangyong He, Zhi Wang, and Yan-ge Liu. “Dynamicaldiversity of noise-like pulse and soliton explosion in NL-MMI mode-locked Erfiber laser,” Optics & Laser Technology 168, 109914 (2024).

11)   QingboWang, Pan Wang* (correspondingauthor), Zhifeng Shi, Qiaoqiao Xu, Shijie Sun, Jiangyong He, Zhi Wang, and Yan-geLiu.““Invisible” pulsation and period-doubling bifurcation of harmonic mode lockingin a bidirectional fiber laser,” Optics Letters 48(23), 6160-6163 (2023).

12)   QingboWang, Pan Wang* (correspondingauthor), Qiaoqiao Xu, Zhifeng Shi, Jiangyong He, Zhi Wang, and Yan-ge Liu. “Observationof the “invisible” pulsation of soliton molecules in a bidirectional ultrafast fiberlaser,” Optics Express 31(12), 19036-19047(2023).

13)   QingboWang, Zhuo Li, Pan Wang*(corresponding author), Qiaoqiao Xu, Zhiwei Zhang, Zhi Wang, Yi Huang, and Yan-geLiu. “Q-switched and vector soliton pulses from an Er-doped fiber laser withhigh stability based on a γ-graphyne saturable absorber,” Nanoscale 15, 7566-7576 (2023).

14)   Pan Wang, Yundong Hao,Qiaoqiao Xu, Qingbo Wang, Jiangyong He, Xiaosheng Xiao, Zhi Wang, and Yan-geLiu. “Quartic soliton dynamics and pattern formations in passive drivenfiber resonators with different quartic dispersion regimes,” Optics & Laser Technology 161,109124 (2023).

15)   YicongLiu, Pan Wang* (correspondingauthor), Mao Feng, Qingbo Wang, Jiangyong He, Wenzhe Chang, Zhi Wang, and Yan-geLiu. “High-order mode erbium-doped fiber laser based on cavity LPFGconverters,” Applied Optics 62(2),470-474 (2023).

16)   QingboWang, Jianlong Kang, Pan Wang*(corresponding author), Jiangyong He, Yicong Liu, Zhi Wang, Han Zhang, and Yan-geLiu.“Broadbandsaturable absorption in germanene for mode-locked Yb, Er, and Tm fiber lasers,”Nanophotonics 11(13), 3127-3137(2022).

17)   Pan Wang, Jiangyong He,Xiaosheng Xiao, Zhi Wang, and Yan-ge Liu. “Sub-terahertz-repetition-ratefrequency comb generated by filter-induced instabilities in passive drivenfiber resonators,” Photonics Research10(2), 465-474 (2022).

18)   CongcongLiu, Qiaoqiao Xu, Zhuo Li, Jiangyong He, PanWang* (corresponding author), Yi Huang, Yan-ge Liu, and Zhi Wang. “Ti3C2Txas saturable absorber for highly stable all fiber Er-doped Q-switched laser,” IEEE Photonics Technology Letters34(18), 985-988 (2022).

19)   JiangyongHe, Caiyun Li, Pan Wang*(corresponding author), Congcong Liu, Yan-ge Liu, Bo Liu, Dengke Xing, and ZhiWang. “Soliton molecule dynamics evolution prediction based on LSTM neural networks,” IEEE Photonics Technology Letters 34(3),193-196 (2022).

20)   Pan Wang, Jiapeng Huang, Shangran Xie, Johann Troles, andPhilip St.J. Russell. “Broadband mid-infrared supercontinuum generation indispersion-engineered As2S3-silica nanospike waveguidespumped by 2.8 μm femtosecond laser,” Photonics Research 9(4), 630-636 (2021).

21) Bo Fu†, Pan Wang† (co-first author), Yan Li, Marcello Condorelli, EnzaFazio, Jingxuan Sun, Lijun Xu, Vittorio Scardaci, and Giuseppe Compagnini.“Passively Q-switched Yb-doped all-fiber laser based on Ag nanoplates assaturable absorber,” Nanophotonics 9(12), 3873-3880 (2020).

22)   Pan Wang, Shunyu Yao, Philippe Grelu, Xiaosheng Xiao, andChangxi Yang. “Pattern formation in 2-μm Tm Mamyshevoscillators associated with the dissipative Faraday instability,” Photonics Research 7(11), 1287-1295(2019).

23)   Pan Wang, Kangjun Zhao,Lili Gui, Xiaosheng Xiao, and Changxi Yang. “Self-organized structures ofsoliton molecules in an all-fiber ultrafast 2-μm laser based on monolayer MoS2 saturable absorber,” IEEE Photonics Technology Letters30(13), 1210 (2018).

24)   Pan Wang, XiaoshengXiao, Hang Zhao, and Changxi Yang. “Observation of duration-tunable solitonexplosion in passively mode-locked fiber laser,” IEEE Photonics Journal 9(6), 1507008 (2017).

25)   Pan Wang, Kangjun Zhao,Xiaosheng Xiao, and Changxi Yang. “Pulse dynamics of dual-wavelengthdissipative soliton resonances and domain wall solitons in a Tm fiber laserwith fiber-based Lyot filter,” Optics Express 25(24), 30708-30719 (2017).

26)   Pan Wang, Dake Hu,Kangjun Zhao, Liying Jiao, Xiaosheng Xiao, and Changxi Yang. “Dissipative roguewaves among noise-like pulses in a Tm fiber laser mode locked by a monolayerMoS2 saturable absorber,” IEEEJournal of Selected Topics in Quantum Electronics 24(3), 1800207 (2017).

27)   Pan Wang, XiaoshengXiao, Philippe Grelu, and Changxi Yang. “Sub-sideband generation associatedwith period-N pulsations in Tmsoliton fiber lasers,” IEEE Photonics Journal 9(4), 1502908 (2017).

28)   Pan Wang, Xiaosheng Xiao,and Changxi Yang. “Quantized pulse separations of phase-locked soliton moleculesin a dispersion-managed mode-locked Tm fiber laser at 2-μm,” Optics Letters 42(1), 29-32 (2017).

29)   Pan Wang, Chengying Bao, Bo Fu,Xiaosheng Xiao, Philippe Grelu, and Changxi Yang. “Generation ofwavelength-tunable soliton molecules in a 2-μm ultrafast all-fiber laser basedon nonlinear polarization evolution,” Optics Letters 41(10), 2254-2257 (2016).

光电子学导论，大学基础物理实验，光电子学，光纤光学及应用等

九三学社南开大学委员会等

国家自然科学基金、北京市自然科学基金等项目评审

Laser & Photonics Reviews、Photonics Research、Optics Letters、Optics Express、Journal of LightwaveTechnology、Optics & Laser Technology等期刊评审