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刘海涛

教授

  • 刘海涛
    性别 : 所属部门 : 现代光学研究所
    职称 : 教授 学历 : 博士
    行政职务 : 所学专业 : 光学工程
    办公电话 :
    邮箱 : liuht@nankai.edu.cn
    研究方向 : 微纳光学、表面等离激元光学

个人简历

教育及工作经历:

 ●1996-2000 清华大学工学学士;

 ●2000-2005 清华大学光学工程博士; 
 ●2005-2006 南开大学现代光学研究所讲师; 
 ●2007-2008 南开大学现代光学研究所副教授; 
 ●2009- 南开大学现代光学研究所教授、博士生导师; 
 ●2006-2008 法国国家科学研究中心(CNRS)光学研究所国家公派博士后。

 

研究方向:

 ●微纳光学、表面等离激元光学:纳米金属孔阵列光学异常透射,纳米光学天线自发辐射调控与增强,纳米谐振腔局域场调控与增强,金属表面等离激元微纳器件。

 ●微纳尺度光学传感:微纳结构表面增强拉曼光谱、荧光光谱高灵敏度生物化学传感。

 ●微纳光学理论研究:微纳光子学器件的微观动力学模型分析与设计,严格耦合波分析(RCWA)算法研究。

科研项目/成果/获奖/专利

入选人才计划项目:

 ●国家优秀青年科学基金项目。
 ●教育部“新世纪优秀人才支持计划”。 

 ●天津市“131”创新型人才培养工程第一层次人选。
 ●南开大学百名青年学科带头人培养计划。 

 

作为负责人主持科研项目:

 ●国家973计划项目课题“介观光学及局域场调控理论研究”。

 ●国家自然科学基金项目“金属纳米间隙复合型表面等离激元自发辐射耦合增强效应研究”。

 ●国家自然科学基金项目“亚波长金属孔径阵列透射增强的微观模型与性能控制研究”。     
 ●教育部高等学校科技创新工程重大项目培育资金项目“金属亚波长阵列拉曼传感器电磁增强的理论分析与设计”。     
 ●天津市应用基础及前沿技术研究计划重点项目“微纳米金属结构实现表面增强拉曼光谱传感的机理研究”。     
 ●国家973计划项目课题子课题“金属亚波长结构理论及其表面增强拉曼光谱技术”。     
 ●天津市自然科学基金项目“用于双光子荧光扫描显微术的超分辨衍射器件的研究”。

 

 获得学术奖励:

 ●中国光学学会“王大珩光学奖”(高校学生奖)。
 ●清华大学优秀博士学位论文。
 ●法中科学及应用基金会吉尔-卡恩奖。
 ●中国仪器仪表学会奖学金-金国藩青年学子奖学金。
 ●中国光学学会“王大珩光学奖”(中青年科技人员光学奖)。
 ●天津青年科技奖。

论文/专著/教材

在Nature(2篇,其中第一作者1篇,影响因子41.577)、Physical Review Letters、美国光学学会刊物(其中Spotlight 1篇、编辑推荐封面文章1篇)、美国IEEE刊物等发表SCI期刊论文60余篇,具体如下(*代表通讯作者):
 
 ●Haitao Liu, Philippe Lalanne. Microscopic theory of the extraordinary optical transmission. Nature, 2008, Vol. 452 (No. 7188), pp. 728-731. (SCI IDS: 285QY, 2018 Impact Factor 41.577)
 
 ●Frerik van Beijnum, Chris Retif, Chris B. Smiet, Haitao Liu, Philippe Lalanne, Martin P. van Exter. Quasi-cylindrical wave contribution in experiments on extraordinary optical transmission. Nature, 2012, Vol. 492 (No. 7429), pp. 411-414. (SCI IDS: 056KQ, 2018 Impact Factor 41.577)
 
 ●X. Y. Yang, Haitao Liu, P. Lalanne. Cross conversion between surface plasmon polaritons and quasicylindrical waves. Physical Review Letters, 2009, Vol. 102 (No. 15), 153903. (SCI IDS: 434PD, 2018 Impact Factor 8.839)
 
 ●J. Yang, C. Sauvan, Haitao Liu, P. Lalanne. Theory of fishnet negative-index optical metamaterials. Physical Review Letters, 2011, Vol. 107 (No. 4), 043903. (SCI IDS: 794CI, 2018 Impact Factor 8.839) 

 

 ●Junda Zhu, Tong Zhu, Hongwei Jia, Ying Zhong, Haitao Liu*. Intuitive analysis of subwavelength plasmonic trench waveguide. Journal of Lightwave Technology, 2019, Vol. 37 (No. 4), pp. 1345-1351. (2018 Impact Factor 3.652)

 

 ●Ying Zhong, Fuping Sun, Haitao Liu*. Impact of propagative surface plasmon polaritons on the electromagnetic enhancement by localized gap surface plasmons between metallic nanoparticles and substrate. Plasmonics, 2019, https://doi.org/10.1007/s11468-019-00929-6  (2018 Impact Factor 2.366)

 

 ●Huigang Liu*, Lu Zheng, Pingzhun Ma, Ying Zhong, Bo Liu, Xianzhong Chen*, Haitao Liu*. Metasurface generated polarization insensitive Fano resonance for highperformance refractive index sensing. Optics Express, 2019, Vol. 27 (No. 9), pp. 13252-13262. (2018 Impact Factor 3.356)

 

 ●P. Lalanne, W. Yan, A. Gras, C. Sauvan, J.-P. Hugonin, M. Besbes, G. Demésy, M. D. Truong, B. Gralak, F. Zolla, A. Nicolet, F. Binkowski, L. Zschiedrich, S. Burger, J. Zimmerling, R. Remis, P. Urbach, Haitao Liu, T. Weiss. Quasinormal mode solvers for resonators with dispersive materials. Journal of the Optical Society of America A, 2019, Vol. 36 (No. 4), pp. 686-704. (2016 Impact Factor 1.621)

 

 ●Muyang Zhang, Leilei Zhang, Di Yang, Haitao Liu, Yanmei Liang*. Symmetrical illumination based extending depth of field in Fourier ptychographic microscopy. Optics Express, 2019, Vol. 27 (No. 3), pp. 3583-3597. (SCI IDS: HK0JR, 2018 Impact Factor 3.356)

 

 ●Jianing Wan, Junda Zhu, Ying Zhong, Haitao Liu*. Semianalytical model for the electromagnetic enhancement by a rectangular nanowire optical antenna on metallic substrate. Journal of the Optical Society of America A, 2018, Vol. 35 (No. 6), pp. 880-889. (SCI IDS: GH9EL, 2016 IF 1.621)

 

 ●Chenyang Guo, Xing Chen, Song-Yuan Ding, Dirk Mayer, Qingling Wang, Zhikai Zhao, Lifa Ni, Haitao Liu, Takhee Lee*, Bingqian Xu*, Dong Xiang*. Molecular orbital gating surface-enhanced Raman scattering. ACS Nano, 2018, Vol. 12 (No. 11), pp. 11229-11235. (SCI IDS: HC4QL, 2018 Impact Factor 13.709)

 

 ●Hongwei Jia, Wenlong Gao, Yuanjiang Xiang*, Haitao Liu, and Shuang Zhang*. Resonant transmission through topological metamaterial grating. Annalen Der Physik, 2018, Vol. 530 (No. 9), 1800118. (SCI IDS: GT3MV, 2018 Impact Factor 2.557)

 

 ●Tian Zhang,  Maoning Wang,  Yong Yang,  Fei Fan,  Takhee Lee,  Haitao Liu,  Dong Xiang*. An on-chip hybrid plasmonic light steering concentrator with ∼96% coupling efficiency. Nanoscale, 2018, Vol. 10 (No. 11), pp. 5097-5104. (SCI IDS: GB1CC, 2016 IF 7.367)

 

 ●Junda Zhu, Ying Zhong, Haitao Liu*. Impact of nanoparticle-induced scattering of an azimuthally propagating mode on the resonance of whispering gallery microcavities. Photonics Research, 2017, Vol. 5 (No. 5), pp. 396-405. (SCI IDS: FI5GW, 2018 IF 5.242)

 

 ●Hongwei Jia, Fan Yang, Ying Zhong, Haitao Liu*. Understanding localized surface plasmon resonance with propagative surface plasmon polaritons in optical nanogap antennas. Photonics Research (编辑推荐封面文章), 2016, Vol. 4, No. 6, 293-305. (2018 IF 5.242)
 
 ●Fan Yang, Haitao Liu*, Hongwei Jia, Ying Zhong. Analytical description of quasi-normal mode in resonant plasmonic nano cavities. Journal of Optics, 2016, Vol. 18, 035003. (SCI IDS: DL6LF, 2015 IF 1.847)
 
 ●Hongwei Jia, Yunya Xie, Haitao Liu*, Ying Zhong. Analytical model for the excitation of leaky surface plasmon polaritons in the attenuated total reflection configuration. Journal of Optics, 2016, Vol. 18, 055003. (SCI IDS: DL6MT, 2015 IF 1.847)
 
 ●Junda Zhu, Haitao Liu*, Ying Zhong. Treatment of nonconvergence of the Fourier modal method and C method arising from field hypersingularities at lossless metal–dielectric arbitrary-angle edges. Journal of the Optical Society of America A, 2016, Vol. 33 (No. 5), pp. 845-853. (SCI IDS: DM3KB, 2015 IF 1.457)
 
 ●Hongwei Jia, Philippe Lalanne, Haitao Liu*. Comprehensive surface-wave description for the nano-scale energy concentration with resonant dipole antennas. Plasmonics, 2016, Vol. 11 (No. 4), pp. 1025-1033. (SCI IDS: DQ4MZ, 2015 IF 2.146)
 
 ●Ying Zhong, Haitao Liu. Classifications of vertical and horizontal resonances for a metal-insulator-metal waveguide with a side-coupled cavity. Journal of Optics, 2016, Vol. 18 (No. 3), 035004. (SCI IDS: DL6LF, 2015 IF 1.847)
 
 ●Huiqiao Liu, Pengfei Rong, Hongwei Jia, Jie Yang, Bo Dong, Qiong Dong, Cejun Yang, Pengzhi Hu, Wei Wang, Haitao Liu, Dingbin Liu. A wash-free homogeneous colorimetric immunoassay method. Theranostics, 2016, Vol. 6 (No. 1), pp. 54-64. (SCI IDS: CU6XN, 2014 Impact Factor 8.022) 

 

 ●Mengyin Liu, Xinjian Xie, Lei Chen, Xuewei Wang, Yahui Cheng, Feng Lu, Wei-Hua Wang, Jing Yang, Xiwen Du, Junda Zhu, Haitao Liu, Hong Dong*, Weichao Wang*, Hui Liu. A Rational Design of Heterojunction Photocatalyst CdS Interfacing with One Cycle of ALD Oxide. Journal of Materials Science & Technology, 2016, Vol. 32, pp. 489-495. (SCI IDS: DN6ME, 2016 IF 2.764)

 

 ●Cheng Gong, Mingzhou Zhan, Jing Yang, Zhigang Wang, Haitao Liu, Yuejin Zhao, Weiwei Liu*. Broadband terahertz metamaterial absorber based on sectional asymmetric structures. Scientific Reports, 2016, Vol. 6, pp. 32466. (2016 IF 4.259)

 

 ●Qingling Wang, Ran Liu, Dong Xiang*, Mingyu Sun, Zhikai Zhao, Lu Sun, Tingting Mei, Pengfei Wu, Haitao Liu, Xuefeng Guo, Zong-Liang Li*, Takhee Lee*. Single-atom switches and single-atom gaps using stretched metal nanowires. ACS Nano, 2016, Vol. 10 (No. 10), pp. 9695-9702. (2016 IF 13.942)

 

 ●Hongwei Jia, Haitao Liu*, Ying Zhong. Role of surface plasmon polaritons and other waves in the radiation of resonant optical dipole antennas. Scientific Reports, 2015, Vol. 5, pp. 8456. (SCI IDS: CB0HI, 2013 Impact Factor 5.078)
 
 ●J. B. Wu, X. Zhang, B. B. Jin*, Haitao Liu*, Y. H. Chen, Z. Y. Li, C. H. Zhang, L. Kang, W. W. Xu, J. Chen, H. B. Wang, M. Tonouchi, P. H. Wu*. The dynamic process and microscopic mechanism of extraordinary terahertz transmission through perforated superconducting films. Scientific Reports, 2015, Vol. 5, pp. 15588. (SCI IDS: CU3DM, 2013 Impact Factor 5.078)
 
 ●Yunya Xie, Haitao Liu*, Hongwei Jia, Ying Zhong. Surface-mode model of the extraordinary optical transmission without plasmons. Optics Express, 2015, Vol. 23 (No. 5), pp. 5749-5762. (SCI IDS: CD2BL, 2013 Impact Factor 3.525)
 
 ●Chao Niu, Tiffany Huang, Xin Zhang, Haitao Liu, Weihua Zhang, Jonathan Hu. Impact of a dielectric layer on the resonant conditions of nanograting structures. Plasmonics, 2015, Vol. 10 (No. 2), pp. 419-427. (SCI IDS: CD7SQ, 2013 Impact Factor 2.738)
 
 ●Xin Zhang, Haitao Liu*, Ying Zhong. Microscopic analysis of surface Bloch modes on periodically perforated metallic surfaces and their relation to extraordinary optical transmission. Physical Review B, 2014, Vol. 89 (No. 19), pp. 195431. (SCI IDS: AH6NR, 2011 Impact Factor 3.691)
 
 ●Chuan Liu, Haitao Liu*,  Ying Zhong. Impact of surface plasmon polaritons and other waves on the radiation of a dipole emitter close to a metallic nanowire antenna. Optics Express, 2014, Vol. 22 (No. 21), pp. 25539-25549. (SCI IDS: AS0ZF, 2011 Impact Factor 3.587)
 
 ●Yanpeng Mei, Haitao Liu*, Ying Zhong. Treatment of nonconvergence of Fourier modal method arising from irregular field singularities at lossless metal-dielectric right-angle edges. Journal of the Optical Society of America A, 2014, Vol. 31 (No. 4), pp. 900-906. (SCI IDS: AE4EG, 2011 Impact Factor 1.562)
 
 ●Ying Li, Haitao Liu*, Hongwei Jia, Fang Bo, Guoquan Zhang, Jingjun Xu. Fully vectorial modeling of cylindrical microresonators with aperiodic Fourier modal method. Journal of the Optical Society of America A, 2014, Vol. 31 (No. 11), pp. 2459-2466. (SCI IDS: AT2RM, 2011 Impact Factor 1.562)
 
 ●Ying Zhong, Hongkun Zhou, Haitao Liu. Quantitative coupled-mode model for a metal–dielectric–metal waveguide with a side-coupled cavity. Journal of the Optical Society of America A, 2014, Vol. 31 (No. 10), pp. 2170-2173. (SCI IDS: AT2RH, 2011 Impact Factor 1.562)
 
 ●Siwen Zhang, Haitao Liu, Xiaodong Sun. Role of hybrid wave in electromagnetic enhancement by a metallic groove doublet. Journal of the Optical Society of America A, 2014, Vol. 31 (No. 6), pp. 1194-1199. (SCI IDS: AJ2PI, 2011 Impact Factor 1.562)
 
 ●Hang Lian, Ying Gu, Luojia Wang, Haitao Liu, Qihuang Gong. Radially oscillating and quasi-guided surface plasmon polaritons in cylindrical metallic nanostructures. Optics Letters, 2014, Vol. 39 (No. 11), pp. 3282-3285. (SCI IDS: AI7UX, 2011 Impact Factor 3.399)
 
 ●Hongming Shen, Guowei Lu, Yingbo He, Yuqing Cheng, Haitao Liu, Qihuang Gong. Directional and enhanced spontaneous emission with a corrugated metal probe. Nanoscale, 2014, Vol. 6 (No. 13), pp. 7512-7518. (SCI IDS: AJ6FU, 2012 Impact Factor 6.233)
 
 ●Aiping Liu, Chang-Ling Zou, Xifeng Ren, Xiao Xiong, Yong-Jing Cai, Haitao Liu, Fang-Wen Sun, Guang-Can Guo, Guo-Ping Guo. Independently analyzing different surface plasmon polariton modes on silver nanowire. Optics Express, 2014, Vol. 22 (No. 19), pp. 23372-23378. (SCI IDS: AQ4IB, 2011 Impact Factor 3.587)
 
 ●Lei Zhou, Xiaochen Jiang, Yanqing Li, Aili Shi, Jingde Chen, Qingdong Ou, Haitao Liu, Jianxin Tang. Light extraction of trapped optical modes in polymer light-emitting diodes with nanoimprinted double-pattern gratings. ACS Applied Materials & Interfaces, 2014, Vol. 6 (No. 20), pp. 18139-18146. (SCI IDS: AR6HF, 2013 Impact Factor 5.900)
 
 ●Haitao Liu*. Coherent-form energy conservation relation for the elastic scattering of a guided mode in a symmetric scattering system. Optics Express, 2013, Vol. 21 (No. 20), pp. 24093-24098. (SCI IDS: 233EU, 2011 Impact Factor 3.587)
 
 ●Xin Zhang, Haitao Liu*, Ying Zhong. Large-area electromagnetic enhancement by a resonant excitation of surface waves on a metallic surface with periodic subwavelength patterns. Optics Express, 2013, Vol. 21 (No. 20), pp. 24139-24153. (SCI IDS: 233EU, 2011 Impact Factor 3.587)
 
 ●Haitao Liu*, Philippe Lalanne. General properties of the surface charge pattern of one-dimensional metallic gratings. Optics Express, 2013, Vol. 21 (No. 14), pp. 16753-16762. (SCI IDS: 183MK, 2011 Impact Factor 3.587)
 
 ●Pan Chen, Ying Zhong, Haitao Liu. Role of surface plasmon polaritons and photonic modes in light absorption by thin-film solar cells patterned with metallic nanogratings. Optics Letters, 2013, Vol. 38 (No. 4), pp. 573-575. (SCI IDS: 099EB, 2011 Impact Factor 3.399, EI accession number: 20130916050972)
 
 ●Zhiwen Zeng, Haitao Liu*. Electromagnetic enhancement by a T-shaped metallic nanogroove: impact of surface plasmon polaritons and other surface waves. IEEE Journal of Selected Topics in Quantum Electronics, 2012, Vol. 18 (No. 6), 1669-1675. (SCI IDS: 004FD, 2011 Impact Factor 3.780, EI accession number: 20123815453807)
 
 ●Xin Zhang, Haitao Liu*, Ying Zhong. Compensation of propagation loss of surface plasmon polaritons with a finite-thickness dielectric gain layer. Journal of Optics, 2012, Vol. 14 (No. 12), 125003. (SCI IDS: 046CF, 2011 Impact Factor 1.573)
 
 ●Zeng Zhi-Wen, Liu Hai-Tao*, Zhang Si-Wen. Design of extraordinary-optical-transimission refractive-index sensor of subwavelength metallic slit array based on a Fabry-Perot model. 物理学报(Acta Physica Sinica), 2012, Vol. 61 (No. 20), 200701. (SCI IDS: 043EJ, 2011 Impact Factor 1.027)
 
 ●Siwen Zhang, Haitao Liu, Guoguang Mu. Analysis of electromagnetic enhancement by a groove doublet in gold substrate. Optics Letters, 2012, Vol. 37 (No. 23), 4898-4900. (SCI IDS: 048WM, 2011 Impact Factor 3.399)
 
 ●Siwen Zhang, Haitao Liu*, Guoguang Mu. Electromagnetic enhancement by a periodic array of nanogrooves in a metallic substrate. Journal of the Optical Society of America A, 2011, Vol. 28 (No. 5), pp. 879-886. (SCI IDS: 756PD, 2011 Impact Factor 1.562)
 
 ●张斯文, 刘海涛*, 母国光. 亚波长单金属槽电磁场增强分析. 中国激光, 2011, 38卷 (3期), 0310002 (EI Accession number: 20111613926901).
 
 ●Haitao Liu*, Philippe Lalanne. Light scattering by metallic surfaces with subwavelength patterns. Physical Review B, 2010, Vol. 82 (No. 11), 115418. (SCI IDS: 648VS, 2011 Impact Factor 3.691)
 
 ●Haitao Liu*, Philippe Lalanne. Comprehensive microscopic model of the extraordinary optical transmission. Journal of the Optical Society of America A (Spotlight), 2010, Vol. 27 (No. 12), pp. 2542-2550. (SCI IDS: 699QF, 2011 Impact Factor 1.562)
 
 ●Haitao Liu*. Symmetry in the elementary scattering of surface plasmon polaritons and a generalized symmetry principle. Optics Letters, 2010, Vol. 35 (No. 17), pp. 2876-2878. (SCI IDS: 646FI, 2011 Impact Factor 3.399)
 
 ●Siwen Zhang, Haitao Liu*, Guoguang Mu. Electromagnetic enhancement by a single nano-groove in metallic substrate. Journal of the Optical Society of America A, 2010, Vol. 27 (No. 7), pp. 1555-1560. (SCI IDS: 619KS, 2011 Impact Factor 1.562)
 
 ●P. Lalanne, J. P. Hugonin, Haitao Liu, B. Wang. A microscopic view of the electromagnetic properties of sub-lambda metallic surfaces. Surface Science Reports, 2009, Vol. 64 (No. 10), pp. 453-469. (SCI IDS: 512VQ, 2011 Impact Factor 11.696)
 
 ●Haitao Liu, Philippe Lalanne, Xiaoyan Yang, and Jean-Paul Hugonin. Surface plasmon generation by subwavelength isolated objects. IEEE Journal of Selected Topics in Quantum Electronics, 2008, Vol. 14 (No. 6), pp. 1522-1529. (SCI IDS: 391FZ, 2011 Impact Factor 3.780)
 
 ●Caojin Yuan, Hongchen Zhai, and Haitao Liu. Angular multiplexing in pulsed digital holography for aperture synthesis. Optics Letters, 2008, Vol. 33 (No. 20), pp. 2356-2358. (SCI IDS: 373KP, 2009 Impact Factor 3.059, EI accession number:  084611694461)
 
 ●Lionel Aigouy, Philippe Lalanne, Haitao Liu, Gwenaelle Julie, Veronique Mathet, and Michel Mortier. Near-field scattered by a single nanoslit in a metal film. Applied Optics, 2007, Vol. 46 (No. 36), pp. 8573-8577. (SCI IDS: 253JP, 2009 Impact Factor 1.410, EI accession number: 081011134948)
 
 ●Haitao Liu*, Guoguang Mu, and Lie Lin. Propagation theories of arbitrary-order correlations of partially coherent electromagnetic fields based on separated-coordinate mode decomposition. Journal of the Optical Society of America A, 2007, Vol. 24 (No. 2), pp. 368-378. (SCI IDS: 126MS, 2011 Impact Factor 1.562, EI accession number: 071010464183)
 
 ●Haitao Liu*, Guoguang Mu, and Lie Lin. Time–frequency uncertainty relationship of a partially temporally coherent pulse train. Journal of the Optical Society of America B, 2006, Vol. 23 (No. 10), pp. 2223-2226. (SCI IDS: 134JG, 2009 Impact Factor 2.087, EI accession number: 064810264242)
 
 ●Haitao Liu*, Guoguang Mu, and Lie Lin. Propagation theories of partially coherent electromagnetic fields based on coherent or separated-coordinate mode decomposition. Journal of the Optical Society of America A, 2006, Vol. 23 (No. 9), pp. 2208-2218. (SCI IDS: 078AZ, 2009 Impact Factor 1.670, EI accession number: 064510227002)
 
 ●Haitao Liu*, Guoguang Mu, Lie Lin, and Zhongwei Fan. Optical superresolution of focused partially spatially coherent laser beams. Journal of the Optical Society of America A, 2006, Vol. 23 (No. 6), pp. 1301-1310. (SCI IDS: 045PV, 2009 Impact Factor 1.670, EI accession number: 06289997476)
 
 ●Haitao Liu*, Guoguang Mu, Lie Lin, and Zhongwei Fan. Pulse compression beyond the Fourier transform limit. Journal of the Optical Society of America A, 2006, Vol. 23 (No. 4), pp. 848-857. (SCI IDS: 025XN, 2009 Impact Factor 1.670, EI accession number: 06249930379)
 
 ●Haitao Liu*, Yingbai Yan, and Guofan Jin. Design and experimental test of diffractive superresolution elements. Applied Optics, 2006, Vol. 45 (No. 1), pp. 95-99. (SCI IDS: 001RI, 2009 Impact Factor 1.410, EI accession number: 06049661221)
 
 ●Haitao Liu*, Yingbai Yan, and Guofan Jin. Design theories and performance limits of diffractive superresolution elements with the highest sidelobe suppressed. Journal of the Optical Society of America A, 2005, Vol. 22 (No. 5), pp. 828-838. (SCI IDS: 921CW, 2009 Impact Factor 1.670, EI accession number: 05249150426)
 
 ●Haitao Liu*, Yingbai Yan, and Guofan Jin. Fundamental constraint on the maximum Strehl ratio of bifocal intraocular lenses. Journal of Modern Optics, 2005, Vol. 52 (No. 1), pp. 73-95. (SCI IDS: 889ZZ, 2009 Impact Factor 0.942, EI accession number: 05489503887)
 
 ●Deer Yi, Yingbai Yan, Haitao Liu, Si Lu, and Guofan Jin. Broadband polarizing beam splitter based on the form, birefringence of a subwavelength grating in the quasi-static domain. Optics Letters, 2004, Vol. 29 (No. 7), pp. 754-756. (SCI IDS: 805JN, 2009 Impact Factor 3.059, EI accession number: 04188142304)
 
 ●Haitao Liu*, Yingbai Yan, Deer Yi and Guofan Jin. Design of three-dimensional superresolution filters and limits of axial optical superresolution. Applied Optics, 2003, Vol. 42 (No. 8), pp. 1463-1476. (SCI IDS: 653ZA, 2009 Impact Factor 1.410, EI accession number: 03337597080)
 
 ●Haitao Liu*, Yingbai Yan, Deer Yi, and Guofan Jin. Theories for the design of a hybrid refractive-diffractive superresolution lens with high numerical aperture. Journal of the Optical Society of America A, 2003, Vol. 20 (No. 5), pp. 913-924. (SCI IDS: 698QT, 2009 Impact Factor 1.670, EI accession number: 03347603419)
 
 ●Deer Yi, Yingbai Yan, Haitao Liu, Si Lu, and Guofan Jin. Broadband achromatic phase retarder by subwavelength grating. Optics Communications, 2003, Vol. 227 (No. 1-3), pp. 49-55. (SCI IDS: 739NJ, 2009 Impact Factor 1.316, EI accession number: 03447705246)
 
 ●Di Feng, Yingbai Yan, Guofan Jin, Haitao Liu, and Qiaofeng Tan. Iterative optimization algorithm based on electromagnetic model for designing diffractive micro-optical elements. Optics Communications, 2003, Vol. 220 (No. 1-3), pp. 7-15. (SCI IDS: 676LJ,  2009 Impact Factor 1.316, EI accession number: 03217473501)
 
 ●Di Feng, Yingbai Yan, Guofan Jin, Qiaofeng Tan, and Haitao Liu. Rigorous electromagnetic design of finite-aperture diffractive optical elements by use of an iterative optimization algorithm. Journal of the Optical Society of America A, 2003, Vol. 20 (No. 9), pp. 1739-1746. (SCI IDS: 716EV, 2009 Impact Factor 1.670, EI accession number: 03387642637)
 
 ●Haitao Liu*, Yingbai Yan, Qiaofeng Tan, and Guofan Jin. Theories for the design of diffractive superresolution elements and limits of optical superresolution. Journal of the Optical Society of America A, 2002, Vol. 19 (No. 11), pp. 2185-2193. (SCI IDS: 606QY, 2009 Impact Factor 1.670, EI accession number: 03347603524)
 
 ●Haitao Liu*, Guoguang Mu, Lie Lin and Zhongwei Fan. Effective optimization method to compress a femtosecond optical pulse. Proceedings of SPIE, 2006, Vol. 6088, p. 60880N. (EI accession number: 06199863499)
 
 ●Haitao Liu*, Yingbai Yan, Di Feng and Guofan Jin. New method to generate dark hollow laser beam. Proceedings of SPIE, 2003, Vol. 5175, pp. 180-185. (EI accession number: 04218169445)
 
 ●Haitao Liu*, Yingbai Yan, Qiaofeng Tan and Guofan Jin. Design of diffractive superresolution elements for optical data storage. Proceedings of SPIE, 2002, Vol. 4930, pp. 548-552.
 
 ●Haitao Liu*, Lin Pang, and Yingbai Yan. New method for the design of multi-wavelength optical head. Proceedings of SPIE, 2001, Vol. 4291, pp. 165-172. (EI accession number: 01346623383)
 
 ●Guofan Jin, Haitao Liu and Qiaofeng Tan. Discussion on limits of optical superresolution. Proceedings of SPIE, 2002, Vol. 4829, pp. 649-650. (SCI IDS: BY17D, EI accession number: 04218168547)
 
 英文专著:
 ●Philippe Lalanne, Haitao Liu. A new look at grating theories through the extraordinary optical transmission phenomenon. S. Enoch and N. Bonod eds., Plasmonics, Springer Series in Optical Sciences 167, 2012, Chapter 3, pp. 85-103. 

 ●Philippe Lalanne, Haitao Liu. Waves on subwalength metallic surfaces: a microscopic view point. T.V. Shahbazyan and M.I. Stockman (eds.), Plasmonics: Theory and Applications, Springer Series in Challenges and Advances in Computational Chemistry and Physics, Chapter 10, 2013 (http://arxiv.org/pdf/1207.5157).

 

 

 

 

讲授课程

 ●本科生课程《衍射光学与成像技术》

 ●博士生课程《微纳光学及应用前沿》

社会兼职

 ●中国光学学会光电技术专业委员会委员。

 ●中国仪器仪表学会“光机电技术与系统集成”分会理事。

 ●天津市光学学会理事。

 ●期刊审稿人:美国光学学会期刊(Optica,Photonics Research,Optics Letters,Optics Express等),IEEE JSTQE,Light: Science & Applications,Laser & Photonics Reviews,Advanced Optical Materials,Nanoscale,Nanophotonics,Applied Physics Letters,Optics Communications,国内期刊(Science Bulletin,Chinese Physics Letters,Chinese Optics Letters)等。

 ●International Conference on Metamaterials, Photonic Crystals and Plasmonics (META) Technical Program Committee member.

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