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唐莉勤

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直属机构: 光学

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学位: 博士

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邮件: tanya@nankai.edu.cn

办公地点: 八里台校区五教206

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10 访问

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  • 电子邮箱: tanya@nankai.edu.cn
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教育经历

2004-2007年,南开大学,泰达应用物理学院,获理学博士学位;

2001-2004年,南开大学,物理科学学院,获理学硕士学位;

1995-1999年,南开大学,物理科学学院,获理学学士学位;

工作经历

2008/05 – 至今,南开大学,物理科学学院,讲师;

2012/07 – 2012/08, 斯洛文尼亚斯特藩研究所和德国明斯特大学应用物理学院,访问交流;

2005/07 – 2006/08,德国明斯特大学,应用物理学院,访问交流;

个人简介

主要从事的是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方面的研究。研究方向包括:平带局域态、光场调控与应用、微纳光子学等。主持并完成国家自然科学青年基金项目一项,先后参与973项目、科技部国际合作专项、国家重点研发计划项目、国家自然科学基金等项目多项的研究工作。

目前发表论文五十余篇。近年来在Opt. Lett., Opt.. Express. Nat. Commun., 2D Materials, Phys. Rev. E等国际学术期刊上发表十余篇。指导本科生百项创新项目荣获校级二等奖;指导研究生获光华奖学金、博士校级二等奖学金、优秀硕士毕业论文等;参与天津市高校本科教改项目荣获校级教学成果二等奖。担任国际期刊EPL-EUROPHYS LETT(影响因子1.957),Journal of Optics(影响因子1.741)审稿人。


论文及被引用情况详见http://www.researcherid.com/rid/C-6132-2009

研究领域

课题组招收硕士和博士研究生,也欢迎本科生加入课题组开展研究

1、平带局域态

主要目标:利用可调可控的人工光子学材料平台,研究光子平带中的压缩局域态、微扰机制与平带的压缩局域态之间的相互作用,开发与挖掘凝聚态与量子物理中赋予的新颖物理现象。

2、微钠光子学

主要目标:通过光子学人工结构的设计与制备,实现光流在微纳尺度上的调控,并深入挖掘光场在这些结构中的非线性演化特性,以期开发一些特殊应用;利用人工构建的光子学势场来模拟电子感受的电学势场,以类比研究凝聚态或量子物理中的一些基本物理现象,实现这些现象的可视化。

3、光场调控与应用

主要目标:通过特殊光场的结构设计,实现微钠尺度上的粒子的动态调控与捕获。



教学工作

主讲课程:《现代应用光学》 主讲;

          现代应用光学课程内容及学时分配.pdf

          《近物实验》   参与

教改工作荣获南开大学2012年教学成果二等奖

          参与2013年精品视频公开课的成功申报,并与2014年暑期完成对视频公开课的两个课时的录制工作。


科研项目

1、国家重点研发计划项目,2017YFA0303802,具有拓扑、分形特性空间结构光场的调
控及非线性效应,2017/07-2022/06,998万,在研,参加
2、国家自然科学基金面上项目,11674180,光诱导蜂窝型光子晶格中与赝自旋相关涡
旋现象的研究,2017/01-2020/12, 65万,在研,参加
3、国家自然科学基金青年项目,11304165,非线性周期结构中离散光涡旋现象研究,
2014/01-2016/12,25万元,已结题,参加
4、国家自然科学基金面上项目,11174161,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,2012/01-2015/12,74万元,已结题,参加
5、国家自然科学基金青年项目,11204213,非共线和频显微成像法对光场传输瞬态动
力学过程的研究,2012/01-2015/12,30万元,已结题,参加
6、国家国际科技合作专项(合作国别:斯洛文尼亚),2011DFA52870,新型聚合物纳
米复合材料及其光子学微结构研究,2012/01-2014/12,243万元,已结题,参加
7、国家重点基础研究发展计划,2010CB934101,光子束超衍射纳米加工基本原理基础
研究,2010/01-2014/12,479万元,已结题,参加
8、国家自然科学基金青年项目,60908002,光诱导准周期光子晶格中光动力学及其应
用的研究,2010/01-2012/12,21万元,已结题,主持
9、国家自然科学基金青年项目,10904078,缺陷光子晶格中的光动力学研究,2010/0
1-2012/12,22万元,已结题,参加

10、“973”计划课题,2007CB613203,光诱导人工光学结构及光传播特性研究,2007
/07-2011/08,457.21万元,已结题,参加

论文专著

论文及被引用情况详见http://www.researcherid.com/rid/C-6132-2009

[24] 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

[23] 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

[22] 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

[21]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 (2015) 2:034007pdf

[20] 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

[19] 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

[18] 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

[17] 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

[16]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)pdf

[15]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)

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

[13]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).

[12]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):2392008)(特邀

[11]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).

[10] 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)

[9]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)

[8]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)

[7]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)

[6]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)

[5] 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)

[4] 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)

[3]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)

[2]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)

[1]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)


会议论文:


[29] Y. Pei, Y. Hu*, C. Lou, D. Song, L. Tang, J. Xu, and Z. Chen, Observation of Spatial Optical Diametric Drive Acceleration, 2017 CLEO: QELS, FM3F.3., San Jose, California United States, 5.14–5.19 2017 (oral)

[28] Daohong Song, Jing Su, Liqin Tang, Jingjun Xu, and Zhigang Chen, Observation of Valley Pseudospin-mediated Vortex Generation in Photonic Graphene, 2016, PIERS

 [27] Daohong Song, Jing Su, Xiuying Liu, Shiqiang Xia, Daniel Gallardo, Liqin Tang, Jingjun Xu, Zhigang Chen, Experimental demonstration of valley-dependent topological charge flipping in photonic graphene, 2016 CLEO: QELS_Fundamental Science, FTu1A.4, San Jose, California United States 6.5–6.10 2016 (oral)

 [26] Shiqiang Xia, Yi Hu, Daohong Song, Yuanyuan Zong, Liqin Tang*, Zhigang Chen, Observation of Flat-Band Image Transmission in Optically Induced Lieb Photonic Lattices, 2016 CLEO: QELS_Fundamental Science, paper FTh1A.2, San Jose, California United States 6.5–6.10 2016 (oral)

 [25] Yuanyuan Zong, Shiqiang Xia, Yi Hu, Daohong Song, Liqin Tang*, Zhigang Chen, Observation of Localized Flat-band States and Diffraction-Free Image Transmission in Kagome Photonic Lattices, 2016 CLEO: Science & Innovations, paper SM3R.2, San Jose, California United States 6.5–6.10 2016 (oral)

 [24] 宗元媛, 夏世强, 唐莉勤*, 宋道红, 胡毅, 陈志刚,“Kagome光子晶格中平带模式无衍射传输的实验研究中国物理学会2015年秋季会议,201510月,长春。

 [23] 夏世强, 胡毅, 宗元媛, 宋道红, 唐莉勤*, 陈志刚,光诱导二维Lieb光子晶格的平带图像传输,中国物理学会2015年秋季会议,201510月,长春。

 [22] Song Daohong, Liu Sheng, Paltoglou Vassilis, Gallardo Daniel, Tang Liqin, Xu, Jingjun, Efremidis Nikolaos K. and Chen Zhigang, Asymmetric conical diffraction and generation of non-integer phase singularities in photonic graphene. 2015 CLEO: QELS_Fundamental Science, Paper:FTh3D.6

 [21] S. Xia, Y. Zong, D. Song, L. Tang*, and Z. Chen, Observation of self-trapping and rotation of higher-gap quadruple-like lattice solitons, in Frontiers in Optics 2014, OSA Technical Digest (online) (Optical Society of America, 2014), paper FTu2E.2. 

[20] Daohong Song, Liqin Tang, Jingjun Xu, Zhigang Chen, Experimental Observation of Pseudospin and Edge States in Structured Photonic Graphene, Progress In Electromagnetics Research Symposium (PIERS 2014), Guangzhou, China, 25-28 August, 2014

 [19] Daohong Song, Liqin Tang, Yi Zhu, Mark Ablowitz, Vassilis Paltoglou, Nikolaos K. Efremidis, Jingjun Xu and Zhigang Chen,  Direct observation of “pseudospin”-mediated vortex generation in photonic graphene CLEO/QELS, paper FM2D.2, San Jose, California, USA 9-13 June 2014, (oral)

[18] Liqin Tang, Yan Xu, Xinzheng Zhang*, Sanming Yi, Yinxiao Xiang, Daohong Song, Jingjun Xu*, “Balanced extendedmodes in quasiperiodic photonic lattices”, the 11th International Conference on Correlation Optics, Chernivtsi, Ukraine, Sep. 18-21 (2013) (invited talk)

 [17] 唐莉勤,徐燕,张心正,易三铭,许京军, “无序光子晶格中平衡扩展态的研究,泰山学术论坛——光电材料与器件专题,邀请报告,中国青岛(2012.10.26-28

 [16] Zhuoyi Ye, Daohong Song, Liqin Tang, Cibo Lou, Zhigang Chen*, The stimulated Raman adiabatic passage in the tri-core waveguide arrays, 1st EOS Topical Meeting on Micro- and Nano-Optoelectronic Systems, Bremen, Germany, Dec 7-9(2011)

 [15] 叶卓艺, 楼慈波, 宋道红, 唐莉勤, 陈志刚,光诱导折射率梯度调控Airy光加速度, 中国物理学会2011年秋季学术会议, 杭州 (2011.9.15-18).

 [14] Guo Qinghua, Tang Liqin*, Liu Zuxue, Song Daohong, Ye Zhuoyi, Zhong Yi, Lou Cibo, Chen Zhigang, Light tunneling inhibition in quasi-periodic waveguide arrays, the 15th Conference of Optical Properties of Condensed matter, 2010, Ningbo, China.

[13] Ye Zhuoyi, Song Daohong, Li Jian, Lou Cibo, Tang LiqinObservation of multi-gap solitons in photonic lattices, the 15th Conference of Optical Properties of Condensed matter, 2010, Ningbo, China.

[12] Ye Zhuoyi, Lou Cibo, Tang Liqin, Song Daohong, Chen ZhigangBeam steering in defected photonic lattices, the 15th Conference of Optical Properties of Condensed matter, 2010, Ningbo, China.

[11] Song Daohong*, Lou Cibo, Tang Liqin, Ye Zhuoyi, Xu Jingjun, Chen ZhigangSelf-trapping of an optical vortex at the surface of optically-induced photonic lattices, The International Conference on Nanophotonics’ 2009, 2009/5/1-2009/5/2, Harbin.(oral)

 [10] Ye Zhuoyi, Lou Cibo, Song Daohong, Tang Liqin, Chen Zhigang, Power-dependent defect solitons interaction in focusing waveguide arrays. CIS/SPIE 2009 (OIT'09), 2009/10/19-2009/10/22, Shanghai, 2009/10/19.(oral)

 [9] Daohong Song, Liqin Tang, Cibo Lou, Xiaosheng Wang, Jingjun Xu, and Zhigang Chen*, H. Susanto, K. Law and P.G. Kevrekidis Self-trapping of optical vortices in photonic lattices optically induced with self-defocusing nonlinearity CLEO/QELS, paper QTuI6, San Jose, California, USA 4-9 May 2008.(oral)

 [8] Liqin Tang, Cibo Lou, Daohong Song, Jingjun Xu and Zhigang Chen,” Two-dimensional vortex solitons in optically induced lattice with a negative defect” the 14th Conference of Optical Properties of Condensed matter, 2008, Qingdao, China.

 [7] Daohong Song, Cibo Lou, Liqin Tang, Jingjun Xu and Zhigang Chen, “Observation of gap vortex solitons in optically induced photonic lattice with a defocusing nonlinearity” the 14th Conference of Optical Properties of Condensed matter, 2008, Qingdao, China.

[6] Jianke Yang, Cibo Lou, Xiaosheng Wang, Liqin Tang, Jingjun Xu and Zhigang Chen, “On-Axis Excitation of Two-Dimensional Gap Solitons and Gap Soliton Trains”, Conference on Lasers and Electro-Optics/International Quantum Electronics Conference, Baltimore, USA, May 6, 2007.

[5] Cibo Lou, Liqin Tang, Jingjun XuP.G. Kevrekidis and Zhigang Chen “Observation nonlinearity-induced symmetry breaking in a photorefractive waveguide lattice” Proceeding Volume (OSA), Trends in Optics and Photonics Series, Photorefractive Effects, Materials, and Device. Sanya China, 2005, 535-539.

[4] Cibo Lou, Liqin Tang, Jingjun Xu, P.G. Kevrekidis and Zhigang Chen “Observation nonlinearity-induced symmetry breaking in a photorefractive waveguide lattice”, 20th Congress of the International Commission for Optics Challenging Optics in Science & Technology, Changchun China, 2005 (Invited).

 [3] 梁沁, 赵丽娟*, 余华, 唐莉勤, 孟婕, 禹宣伊, 唐柏权, 许京军,Eu3+在氟氧化物玻璃陶瓷研究中的作用, 第十二届全国凝聚态光学性质会议, 2004/8.

[2] 孟婕, 赵丽娟*, 余华, 唐莉勤,梁沁, 禹宣伊, 唐柏权, 许京军,用J-O理论分析微晶结构对氟氧化物玻璃陶瓷发光特性的影响,第十二届全国凝聚态光学性质会议, 2004/8.

 [1] Lijuan Zhao, Liqin Tang, Xiaoyuan Xu, Jingjun Xu, Guangyin Zhang, Yishan Wang, Wei Zhao, Guofu Chen, “A new channel of energy transfer in oxyfluoride glass doped with Er3+ /Yb3+”, The Eighth International Conference on Electronic Materials, Xi’an, China, F-66, 266 (2002).

学术交流

2016年6月5-10日,夏世强(博)、宗元媛(硕)参加了在美国San Jose举行的CLEO2016:QELS国际会议,并分别做了口头报告。


2015年10月28-30日,夏世强(博)、宗元媛(硕)参加了吉林省长春市举行的中国物理学会2015年秋季会议,并做了张贴报告。











荣誉奖励

1、南开大学教学成果二等奖一项(集体项目)(2012年)

2、指导本科生百项项目获南开大学本科生创新科研计划二等奖 (张晓玥,2015年)

3、合作指导的硕士毕业论文获南开大学“优秀毕业论文”(宗元媛,2016年)

学术成果

近期代表性研究成果如下

[1]利用振幅调制和相位调制相结合的方法,光诱导制备了Kagome光子劲歌,并首次在实验观察到了线性局域的平带本征模式。同时,利用平带本征模式线性叠加我们还观察到了复杂图形的无衍射传输(Opt. Express 24, 8877 (2016))。这一类特殊的晶格,提供了一种全新的线性光局域的物理新机制,为我们实现长距离无损的图像传输提供了可能。


图一 光诱导 Kagome晶格中的平带态和叠加局域模传输


[2]利用非相干叠加,利用光诱导的方法首次在SBN晶体中实现了二维Lieb光子晶格并实验观察到了线性局域的平带态,并利用平带本征模式线性叠加形成首次实现了图像的无损传输(Opt. Lett. 41, 1435(2016))。由于Lieb晶格特殊的结构,目前制备Lieb光子晶格依赖于激光直写技术,我们的研究提供了一种光诱导制备Lieb光子晶格的新方法。实验中,我们巧妙的采用两个不同周期的晶格阵列光(“蛋托”型晶格阵列光与四方晶格阵列光)的非相干叠加,得到了光强分布符合Lieb晶格结构的无衍射光场。研究成果为光子晶格以及平带在信息传输方面的应用提供了理论与实践经验。


图二  二维Lieb晶格中的平带态和图像传输


[3]在光诱导二维四方光子晶格中,研究了非线性局域的带隙偶极及四极孤子的产生与振荡传输。我们发现,在适当的自聚焦非线性条件下,通过激发晶格中的单个格点,具有反相位偶极入射光束能够自陷形成偶极孤子,其传播常数位于第一布拉格反射带隙中(Chin. Opt. Lett.,11:0908012013)。具有反相位四极入射光束能够自陷形成高带隙四极孤子,其传播常数位于第二布拉格反射带隙中,并且得到具有两个具有不同传播常数的高阶模式。进一步,保持其他条件不变,当转动入射光束使它们与光子晶格主轴有一定角度时,带隙偶极孤子与四极孤子均会表现出周期性振荡传播的特点。更为重要的是,高阶带隙孤子的非线性振荡传输过程会伴随着二阶涡旋态的产生(Opt. Express 23,4397 (2015))。我们的研究成果进一步扩展了光子晶格中非线性局域态的研究。




图三 非线性局域的带隙偶极及四极孤子的产生与振荡传输