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唐莉勤 教授

招生专业: 光学,凝聚态物理

电话:

邮箱: tanya@nankai.edu.cn

办公地点: 第五教学楼206室

个人资料

  • 性别:
  • 部门: 伟德BETVLCTOR1946
  • 联系电话:
  • 通讯地址: 伟德BETVLCTOR1946第五教学楼206室
  • 职称: 教授
  • 电子邮箱: tanya@nankai.edu.cn
  • 办公地址: 第五教学楼206室

教育经历

--2012年7-8月,斯洛文尼亚斯特藩研究所,访问交流。--2005年至2006年,德国明斯特大学应用伟德BETVLCTOR1946,访问交流。--2004-2007年,伟德bv1946官网,理学博士;--2001-2004年,伟德bv1946官网,理学硕士;--1995-1999年,伟德bv1946官网,理学学士;

工作经历

2024-至今,伟德BETVLCTOR1946,教授;2018-2023,伟德BETVLCTOR1946,副教授/硕士生导师;2008-2017,伟德BETVLCTOR1946,讲师;1999-2001,天津三星电子显示器有限公司

个人简介

伟德BETVLCTOR1946教授,博导。2007年博士毕业于伟德bv1946官网泰达应用伟德BETVLCTOR1946。迄今为止在SCI学术期刊上发表60余篇,其中以第一/通讯作者发表Physical Review Letters 1 篇,Laser Photon. Rev. 1篇,Photon. Res. 1 篇,Nanophotonics 1篇, APL Photonics 3篇(1 篇被选为当期精选论文Featured Article,1篇工作被美国物理联合会(American Institute of Physics, AIP)作为新闻报道)等。代表性论文Google引用1500余次(h-index: 20)。 作为项目负责人承担国家自然科学基金项目及省部级项目多项;作为主要技术骨干先后参与国家重点研发计划项目、自然基金重点项目、科技部国际合作专项等项目多项。担任国际期刊Nature、Nature Commun.、ACS Photonics、APL Photonics、Opt. Lett.、Opt. Express等SCI 期刊审稿人。 任国家基金委项目通讯函评专家、教育部学位中心通讯函评专家。担任Photonics客座编辑。获中国光学学会首届光学科技奖、天津市自然科学一等奖。

研究方向

主要研究方向

    周期/非周期光子微结构中光局域与光调控、线性与非线性光物理等微纳及拓扑光子学方面研究。包括:平带晶格中的局域态、边缘态和拓扑特性研究;非厄米平带及拓扑光子学; 非线性拓扑光子态;结构光场的调控、整形以及光镊与光子学技术应用研究等。

    更多信息欢迎浏览光场调控与前沿物理实验室主页:topo-photonics.nankai.edu.cn

    欢迎对微结构光子学和拓扑光子学感兴趣的同学加入(保送或考研)到我们研究团队攻读硕士或博士。联系方式:tanya@nankai.edu.cn

 

科研项目:

(12) 国家自然科学基金面上类分形光子晶格中的平带拓扑和可控模式转换2024-2027),主持

(11) 国家重点研发计划,光子学微结构拓扑态线性与非线性调控2022-2027),参与

(10) 国家自然科学基金重点,高阶光学拓扑态及其非线性调控(2022- 2026),参与

(9) 天津自然科学基金面上,光子微结构中奇点平带及拓扑特性研究(2021-2024),主持

(8) 中德合作交流项目,光子晶格中非线性拓扑物理现象等研究(2021- 2023),参与

(7) 国家重点研发计划,具有拓扑、分形特性空间结构光场的调控及非线性效应(2017-2022),参与

(6) 国家自然科学基金面上,光诱导蜂窝型光子晶格中与赝自旋相关涡旋现象的研究(2017-2020),参与

(5) 国家自然科学基金委面上,无序非线性增益介质中光子局域化及上转换随机激光的研究(2012-2015),参与

(4) 科技部国际合作专项,新型聚合物纳米复合材料及其光子学微结构的合作研究(2012-2014),参与

(3) 国家自然科学基金青年,光诱导准周期光子晶格中光动力学及其应用的研究(2010-2012),主持

(2) 科技部973项目,光子束超衍射纳米加工基本原理基础研究(2010-2014),参与 

(1) 科技部973项目,光诱导人工光学结构及光传播特性研究(2007-2011),参与

 

 

 


研究成果



Publication list



2024

1.   Q. Zhong, Y. Liang, S. Xia, S. Gao, L. Song, F. Hou, L. Tang*, D. Song*, Z. Chen*, Higher-order Topological Corner States in a specially Distorted Photonic Kagome lattice, Laser Photonic Rev., 230184, (2024)

2.  H. Tang, Z. Wang, L. Tang, D. Song, Z. Chen, H. Buljan, Control of non-Hermitain skin effect by staggered synthetic gauge fields, APL Photonics, 9, 056102(2024)

3. Y. Zhang, H. Hao, L. Song, H. Wang, D. Li, D. Bongiovanni, J. Zhan, Z. Xiu, D. Song, L. Tang*, R. Morandotti, Z. Chen*, Nonlinear optical response of heme solutions, Opt. Express 32, 5760-5769 (2024) (Editor's Pick)

4.   Y. Xie, W. Yan, S. Xia, Y. Liang, L. Tang, D. Song*, J. Xu, Z. Chen*, Realization of Topological Corner States in Tailored Photonic Graphene, ACS Photonics, 22, 772-779(2024)

5.  S. Xia, S. Lei, D. Song, L. D. Lauro, I. Alamgir, L. Tang, J. Xu, R. Morandotti, H. Buljan, Z. Chen, Deep-learning-empowered synthetic dimension dynamics: morphing of light into topological modes, Adv. Photonics, 6(2), 026005(2024)

2023

1.   L. Tang* and Z. Chen*, Twisted system makes nanolasers shine together, Nature, 624,260-261(2023) N&V article.

2.   L. Song, Y.Xie, S. Xia, L. Tang*, D. Song*, J.-W. Rhim,  and Z. Chen*, Topological flatband loop states in fractal-like photonic lattices,  Laser Photon. Rev. 17, 2200315 (2023). 

3.   Z. Wang, X. Wang, Z. Hu, D. Bongiovanni, D. Jukić, L. Tang, D. Song, R. Morandotti, Z. Chen*, and Hrvoje Buljan*, Sub-symmetry protected topological states,  Nat. Phys. (2023),doi.org/10.1038/s41567-023-02011-9

4.  Y. Zhang#, S. Xia#, X. Zhao, L. Qin, X. Feng, W. Qi, Y. Jiang, H. Lu, D. Song, L. Tang, Z. Zhu, W. Liu. Y. Liu, Symmetry-protected third-order exceptional points in staggered flatband rhombic lattices, Photonic Research, 11, 225,(2023)

5.   Y. Zhang, G. Liang*, L. Tang*, D. Li, J. Zhan, D. Song, T. Kelly, H. Xu, and Z. Chen*,  Tunable optical nonlinearity and self-collimation of light in food dye solutions, Opt. Commun. 528, 129010 (2023), 

6.   S Gao, L Song, W Yan, Y Wang, S Xia, L Tang, D Song, J Xu, Z Chen, Demonstration of Robust Boundary Modes in Photonic Decorated Honeycomb Lattices, Adv. Opt. Mater. 11, 2202045 (2023)

7.   S Xia, Y Liang, L Tang, D Song, J Xu, Z Chen, Photonic realization of a generic type of graphene edge states exhibiting topological flat band,  Phys. Rev. Lett. 131, 013804, (2023)

8.    S Lei, S Xia, J Wang, X Liu, L Tang, D Song, J Xu, H. BuljanZ. Chen, Mapping and manipulation of topological singularities: from photonic graphene to T-graphene, ACS Photonics, (2023)

9.  Y. Wang, W. Wei, Z. Dong, L. Ding, L. Tang, W. Fan, Y. Li, Design and optimization of GI-PCF supporting the orbital angular momentum modes based on negative curvature structure, Opt. Express, 31, 12059 (2023)

10.  W. Wei, H. Zhao, Y. Wang, Z. Dong, L. Tang, L. Ding, Y. Li, The multiplexing of six vortex modes in a multicore photonic quasi-crystal fiber, IEEE Photonics Jounal 15, 1-6(2023).

11.  J. Zhan, D. Li, D. Bongiovanni, Y. Xiang, S. Chen, Y. Zhang, L. Tang, D. Song, J. Yang, R. Morandotti. Z. Chen, Nonlinear generation of hollow beams in tunable plasmonic nanosuspensions. APL Photonics, 8(7), 076102 (2023).

12.  L. Song, S. Gao, J. Ma, L. Tang*, D. Song*, Y. Li, Z. Chen*, Multiple flatbands and localized states in photonic super-Kagome lattices, Opt. Lett. 48(22), 5947(2023) [PDF] (Editor's Pick)

13. L. Song, D. Bongiocani, Z. Hu, Z. Wang, S. Xia, L. Tang, D. Song, R. Morandotti, Z. Chen, Adv.Opt. Mater. (2023), http://doi.org/10.1002/adom.202301614

14. Z. Dong, Y. Zhao, Y. Wang, W. Wei, L. Ding, L. Tang, Y. Li, Gian optimization of an erbium-ytterbium co-doped amplifier via a Si3N4 Photonic platform, Opt. Express, 31(21), 35419 (2023).

 

2021

1. Wenchao Yan, Daohong Song, Shiqi Xia, Junfang Xie, Liqin Tang, Jingjun Xu, Zhigang Chen, Realization of Second-order Photonic Square-Root Topological Insulators, ACS Photonics, 8(11), 3308-3314(2021)

2. Shiqiang Xia, Carlo Danieli, Yingying Zhang, Xingdong Zhao*, Hai Lu, Liqin Tang*, Denghui Li, Daohong Song, and Zhigang Chen, Higher-order exceptional point and Landau-Zener Bloch oscillations in driven non-Hermitian photonic Lieb lattices, APL Photonics, 6, 126106(2021)

3. Yuqing Xie, Limin Song, Wenchao Yan, Shiqi Xia, Liqin Tang*, Daohong Song*, Jun-Won Rhim, Zhigang Chen*, Fractal-like photonic lattices and localized states arising from singular and nonsingular flatbands, APL Photonics, 6, 116104(2021) [Featured article]

4. X. Liu, F. Lunić, D. Song, Z. Dai, S. Xia, L. Tang, J. Xu, Z. Chen*, H. Buljan*, Wavepacket self-rotation and helical Zitterbewegung in symmetry-broken honeycomb lattices, Laser Photon. Rev. 15,2000563 (2021). [PDF]

5. Shiqi Xia, Daohong Song, Nan Wang, Xiuying Liu, Jina Ma, Liqin Tang, Hrvoje Buljan, and Zhigang Chen, Topological phenomena demonstrated in photorefractive photonic lattices, Optical Materials Express, 11(4), 1292 (2021). [Invited review] [PDF]

6.  W Wei, N An, Z Zhang, L Tang, L Ding, Y Li, Design of a microstructure optical fiber supporting 52 vortex beams,  Opt. Commun. 490,  126657 (2021).

 

2020

1. Shiqi Xia, Dario Juki, Nan Wang, Daria Smirnova, Lev Smirnov, Liqin Tang, Daohong Song, Alexander Szameit, Daniel Leykam, Jingjun Xu, Zhigang Chen & Hrvoje Buljan, Nontrivial coupling of light into a defect: the interplay of nonlinearity and topology, Light Sci. Appl. 9, 147 (2020) [PDF]

2. J. Ma, J.-W. Rhim, L. Tang*, S. Xia, H. Wang, X. Zheng, S. Xia, D. Song, Y. Hu, Y. Li, B.-J. Yang, D. Leykam, and Z. Chen*, Direct Observation of Flatband Loop States Arising from Nontrivial Real-Space Topology, Phys. Rev. Lett. 124, 183901 (2020) [PDF] [Supplemental Materials]  [Nankai News] [微信平台光行天下两江科技评论]

3. L. Tang, D. Song, S. Xia, S. Xia, J. Ma, W. Yan, Y. Hu, J. Xu, D. Leykam and Z. Chen, Photonic flat-band lattices and unconventional light localization, Nanophtonics, 9(5), 1161-1176 (2020). [Invited Review] [PDF]

4. 夏世强, 唐莉勤,夏士齐, 马继娜, 燕文超, 宋道红, 胡毅, 许京军, 陈志刚. 平带光子微结构中的新颖现象:从模式局域到实空间拓扑, 物理学报, 69(55): 154207 (2020). [Invited Review] [PDF]

5. H. Wang, L. Tang*, J. Ma, H. Hao, X. Zheng, D. Song, Yi Hu, Y Li, and Z. Chen*, Optical Clearing and Shielding with Fan-shaped Vortex Beams, APL Photonics, 5(1), 016102 (2020).[PDF] [Featured article] [Reported by AIP Scilight: Fan-shaped optical laser beams blow away impurities]

6. S. Xia, C. Danieli, W. Yan, Z. Li, S. Xia, J. Ma, H. Lu, D. Song*, L. Tang*, S. Flach, and Z. Chen*, Observation of quincunx-shaped flatband states in photonic rhombic lattice without band-touching, APL Photonics, 5(1), 016107 (2020). [PDF]

5. Yan W, Zhong H, Song D, Zhang Y, Xia S, Tang L, Leykam D, Chen Z. Flatband Line States in Photonic Super-Honeycomb Lattices, Advanced Optical Materials, 8, 1902174 (2020).

6.  X. Liu, S. Xia, E. Jajtić, D. Song, D. Li, L. Tang, D. Leykam, J. Xu, H. Buljan and Z. Chen, Universal momentum-to-real-space mapping of topological singularities, Nature commun., 11 (1), 1586 (2020). 


2019

1. H. Wang, L. Tang*, J. Ma, X. Zheng, D. Song, Yi Hu, Y Li, and Z. Chen*, Synthetic optical vortex beams from analogous trajectory change of an artificial satellite, Photonics Research, 7(9), 1101 (2019).[PDF]

2. Daohong Song, D. Leykam, Jing Su, Xiuying Liu, Liqin Tang, Sheng Liu, Jianlin Zhao, N. K. Efremidis, Jingjun Xu, and Zhigang Chen, Valley vortex states and degeneracy lifting via photonic higher-band excitation, Phys. Rev. Lett. 122, 123903 (2019).[PDF]

3. Zhang Zhiming, Wei Wei, Li Zhili, Tang Liqin, Ding Lei, Zheng Xianglong and Li Yigang, All-fiber vortex laser based on a nonlinear amplifying loop mirror and a coupler, IEEE Photonics Technology Letters, 31(13), 1049-1051(2019).

4. Wei Wei, Zhang Zhi-Ming, Tang Li-Qin, Ding Lei, Fan Wan-De, Li Yi-Gang, Transmission characteristics of vortex beams in a sixfold photonic quasi-crystal fiber, Acta Physica Sinica, (11), pp 179-185, (2019).


2018

1. Shiqi Xia, A. Ramachandran, Shiqiang Xia, Denghui Li, Xiuying Liu, Liqin Tang, Yi Hu, Daohong Song, Jingjun Xu, D. Leykam, S. Flach, and Zhigang Chen, Unconventional Flatband Line States in Photonic Lieb Lattices, Phys. Rev. Lett. 121, 263902 (2018). [PDF]

2. Zhang Zhiming, Wei Wei, Tang Liqin, Yang Jie, Guo Jiewei, Ding Lei, Li Yigang, Generation of all-fiber femtosecond vortex laser based on NPR mode-locking and mechanical LPG, Chin. Opt. Lett., 16(11), 110501 (2018).

3. Yumiao Pei, Yi Hu, Cibo Lou, Daohong Song, Liqin Tang, Jingjun Xu, and Zhigang Chen, Observation of spatial optical diametric drive acceleration in photonic lattices, Opt. Lett. 43, 118-121 (2018). [PDF]


2016

1. Yuanyuan Zong, Shiqiang Xia, Liqin Tang*, Daohong Song, Yi Hu, Yumiao Pei, Jing Su, Yigang Li and Zhigang Chen, Observation of localized flat-band states in Kagome photonic lattices, Opt. Express, 24(8), 8877-8885 (2016). [PDF]

2. Shiqiang Xia, Yi Hu, Daohong Song, Yuanyuan Zong, Liqin Tang* and Zhigang Chen, Demonstration of flat-band image transmission in optically induced Lieb photonic lattices, Opt. Lett. 41(7), 1435-1438 (2016).[PDF]


2015

1. Song Daohong, Liu Sheng, Paltoglou Vassilis, Gallardo Daniel, Tang Liqin, Zhao Jianlin, Xu Jingjun, Efremidis Nikolaos, Chen Zhigang, Controlled generation of pseudospin-mediated vortices in photonic graphene. 2D Materials (special issue on artificial graphene), 2, 034007 (2015). [PDF]

2. Daohong Song, Vassilis Paltoglou, Sheng Liu, Yi Zhu, Daniel Gallardo, Liqin Tang, Jingjun Xu, Mark Ablowitz, Nikolaos K. Efremidis and Zhigang Chen, Unveiling pseudospin and angular momentum in photonic graphene, Nature Communications, 6, 6272 (2015).[PDF]

3. Shiqiang Xia, Daohong Song, Yuanyuan Zong, Liqin Tang*, and Zhigang Chen, Observation of self-trapping and rotation of higher-band gap solitons in two-dimensional photonic lattices, Opt. Express 23(4), 4397-4405 (2015) [PDF]


2014

1. Zhuoyi Ye, Shiqiang Xia, Daohong Song, Liqin Tang*, Cibo Lou. Beam control in tri-core photonic lattices. Chin. Phys. B, 23(2): 024211(2014) [PDF]

2. Shiqiang Xia, Daohong Song, Liqin Tang*, Cibo Lou, Yigang Li. Self-trapping and oscillation of quadruple beams in high band gap of 2D photonic lattices. Chin. Opt. Lett., 11(9), 090801(2013)[PDF]


BEFORE 2012

1. Daohong Song, Cibo Lou, Liqin Tang, Zhuoyi Ye, Jingjun Xu, and Zhigang Chen, Experiments on Linear and Nonlinear Localization of Optical Vortices in Optically Induced Photonic Lattices,International Journal of Optics, Volume 2012, 273857 (2012).[Invited Review] [PDF]

2. Daohong Song, Cibo Lou, K. Law, Liqin Tang, Zhuoyi Ye, P.G. Kevrekidis, Jingjun Xu, and Zhigang Chen, Self-trapping of optical vortices at the surface of an induced semi-infinite photonic lattice, Optics Express, 18, 5873 (2010)

3. Daohong Song, Xiaosheng Wang, Daniel Shuldman, Jiandong Wang, Liqin Tang, Cibo Lou, Jingjun Xu, Jianke Yang, and Zhigang Chen, Observation of bandgap guidance of optical vortices in a tunable negative defect, Opt. Lett. 35, 2106-2108 (2010).

4. Daohong Song, Cibo Lou, Liqin Tang, Xiaosheng Wang,Wei Li, Xingyu Chen, Kody J.H. Law, Hadi Susanto, P. G. Kevrekidis, Jingjun Xu, and Zhigang Chen, Self-trapping of optical vortices in waveguide lattices with a self-defocusing nonlinearity, Opt. Express 16, 10110-10116 (2008).

5. 楼慈波, 宋道红, 唐莉勤, 陈星宇, 许京军, 陈志刚, 光子晶格中新颖的空间带隙孤子, 物理, 37(4):239 (2008). [Invited Review]

6. H. Susanto, K. Law, P.G. Kevrekidis, Liqin Tang, Cibo Lou, Xiaosheng Wang and Zhigang Chen, Dipole and quadrupole solitons in optically-induced two-dimensional defocusing photonic lattices, Phys. D 237, 3123-3134 (2008).

7. Cibo Lou, Liqin Tang, Daohong Song, Xiaosheng Wang, Jingjun Xu, Zhigang Chen, Novel spatial solitons in light-induced photonic bandgap structures, Front. Phys. China, 3(1): 1-12(2008) [Invited Review]

8. Liqin Tang, Cibo Lou, Xiaosheng Wang, Daohong Song, Xingyu Chen, Jingjun Xu, Zhigang Chen, H. Susanto, K. Law and P. G. Kevrekidis, Observation of dipole-like gap solitons in waveguide lattices induced with a self-defocusing nonlinearity, Opt. Lett., Vol. 32(20), 3011-3013 (2007)

9. Bernd Terhalle, Anton S. Desyatnikov, Christoph Bersch, Denis Traeger, Liqin Tang, Joerg Imbrock, Yuri S. Kivshar and Cornelia Denz, Anisotropic photonic lattices and discrete solitons in photorefractive media, Appl. Phys. B, 86, 399-405(2007)

10. Bernd Terhalle, Denis Traeger, Liqin Tang, Joerg Imbrock, and Cornelia Denz, Structure analysis of two-dimensional nonlinear self-trapped photonic lattices in anisotropic photorefractive media, Phys. Rev. E, 74, 057601 (2006)

11. Cibo Lou, Jingjun Xu, Liqin Tang, Zhigang Chen, P. G. Kevrekidis, Symmetric and antisymmetric soliton statesin two-dimensional photonic lattices, Opt. Lett., Vol. 31(4):492 (2006)

12. Tang Liqin, Zhao Lijuan, Zhang Xinzheng, Yu Hua, Meng Jie, Liang Qin, Xu Jingjun, Kong Yongfa,Luminescent enhancement in Mg- and Er-codoped LiNbO3 crystals, Chin. Phys. Lett., Vol. 22(3):588 (2005)

13. Yu Hua, Zhao Lijuan, Liang Qin, Meng Jie, Yu Xuanyi, Tang Baiquan, Tang Liqin, Xu Jingjun, Red up-conversion luminescence process in oxyfluoride glass ceramicsdoped with Er3+/Yb3+, Chin. Phys. Lett. Vol. 22(6):1500 (2005)

14. 王鲲, 张心正, 王振华, 唐莉勤,吴强, 许京军, 时间分辨荧光光谱中信噪比与测量精度的提高, 《激光技术》, Vol. 29(2):126 (2005)

15. 孟婕, 赵丽娟, 余华, 唐莉勤, 梁沁, 禹宣伊, 唐柏权, 苏静, 许京军, 微晶结构对氟氧化物玻璃陶瓷发光特性的影响,《物理学报》, Vol. 54(3):14426 (2005)

16. 赵丽娟, 唐莉勤, 许京军, 张光寅, 非线性光学效应与光速减慢, 《物理学进展》, Vol. 21(4): 385 (2001)

 


社会兼职

Photonics杂志 专刊Flat Bands: Fundamentals and Applications”专题编辑


PROFESSIONAL ACTIVITIES 

Guest Editor of Special issues:  ”Flat Bands: Fundamentals and Applications ” for Photonics. 

Referee for grant proposals (NSFC); Referee for dissertation, Ministry of Education 

Referee for:
 ▪ Nature; Nature Commun.; ACS Photonics; APL Photonics; Optics Letters; Optics  Express; Optics and Laser Technology; EPL-EUROPHYS LETT; Annalen der Physik; Scientific Reports; Advanced Physics Research; Frontiers in Photonics;  Photonics; J. lightwave Tech.;  Journal of Optics; Optics Communications; Alexandria Engineering Journal;  Meccanica; Frontiers of Physics. 



ORGANIZATIONAL ACTIVITIES 

  Member of the Organizing Committee,  Topological Photonics and Beyond (TPB’24), Tianjin, 28-31 Jan., 2024 (international event)  

  Member of the Organizing Committee, TEDA international Mini-Workshop on Topological Photonics and Beyond (TPB’22), Tianjin, 20 Jan., 2022 (international event)  

  Member of the Organizing Committee, the international workshop on Topological Photonics and Beyond (TPB’19), Tianjin, 30 Jun. - 2 Jul. ,2019 (international event) 

   Member of the Organizing Committee, 3rd international workshop on  Frontiers in Photonics, Tianjin, 10 - 12, Jul.  2015 (international event) 

   Member of the Organizing Committee, 2nd international miniworkshop on Nonlinear Optics and Novel Phenomena, Tianjin, 30 Jun. - 1 Jul. , 2010 (international event) 

   Member of the Organizing Committee, 1st international mini-workshop on Discrete Optics, Tianjin, 13 - 14, Jun. 2008 (international event)








教学经历

本科生课程:《现代应用光学》 

                   《大学基础物理实验》 

研究生课程:《现代光学实验》 

教学奖励:伟德bv1946官网教学成果二等奖一项(集体项目)(2012年)


员工获奖情况:

1、2013年,指导博士生夏世强获光华奖学金;

2、2015年,指导本科生张晓玥伟德bv1946官网本科生创新科研计划二等奖 ;

3、2016年,指导硕士生宗元媛获伟德bv1946官网“优秀硕士毕业论文”;

4、2023年,指导本科生夏之昕获伟德bv1946官网“优秀本科毕业论文”;


STUDENT'S THESIS: 


9.  孙煜博,硕士毕业论文:Plus 光子晶格中的非传统平带和拓扑特性的研究,2022

8.  郝慧文,硕士毕业论文:血红素悬浮液中的光学非线性现象研究,2021

7.  郑秀燕,硕士毕业论文:两种类型平带光子晶格系统中光局域特性的研究,2020

6.  马继娜,博士毕业论文:Kagome光子晶格中非传统平带态和锥形衍射的研究,2020

5.  王海萍,博士毕业论文:光束整形及其在光镊中的应用,2020

4.  刘继宗,硕士毕业论文:基于全息光镊的微流通道设计与实验研究,2018

3.  夏世强,博士毕业论文:光诱导光子晶格中线性与非线性光局域效应的研究,2016

2.  宗元媛,硕士毕业论文:光子晶格中平带模空间光局域的特性研究,2016

1.  牛运亭,硕士毕业论文:Kagome光子晶格中空间涡旋光的传输特性研究,2013
















荣誉称号

3、2023年度天津市科学技术奖自然科学一等奖(第四,2023年)

2、中国光学学会首届光学科技奖二等奖(第四,2018年)

      【 南开新闻中国光学学会

1、伟德bv1946官网教学成果二等奖一项 (2012年)





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