个人简历
教育背景:
2002.9——2005.2 天津大学 精仪学院测试计量技术及仪器专业 工学博士
2000.9——2002.9 天津大学 精仪学院测试计量技术及仪器专业 工学硕士
1996.9——2000.7 天津大学 精仪学院测控技术及仪器专业 工学学士
天津大学 社会科学与外国语学院英语专业 文学学士
工作经历:
2017.9——至今 美国加州大学洛杉矶分校(UCLA)纳米系统研究所(CNSI) 高级访问学者
2015.1——至今 南开大学电子信息与光学工程学院现代光学研究所光学工程专业 教授、博士生导师
2007.4——2014.12 南开大学现代光学研究所光学工程专业 副研究员
2005.3——2007.3 南开大学信息技术科学学院现代光学研究所光学工程专业 博士后
2006.11— 2007.2 法国国家科学研究中心光学所 合作研究
2009.6——2009.9 法国国家科学研究中心光学所 高级访问学者
2013.10—2014.10法国国家科学研究中心光学所 访问学者
科研项目/成果/获奖/专利
微介质锥、纳金属锥和纳金属锥孔中的光场调控----2013-01-01到2016-12-31
螺旋轴锥镜产生的新型光束激发局域表面等离激元的研究----2010-01-01到2012-12-31
蓝宝石上硅基纳米结构光导天线的研究----2009-01-01到2011-12-31
其他纵向项目----1980-01-01到2010-01-01
微介质锥、纳金属锥和纳金属锥孔中的光场调控----2013-01-01到2016-12-31
螺旋轴锥镜产生的新型光束激发局域表面等离激元的研究----2010-01-01到2012-12-31
蓝宝石上硅基纳米结构光导天线的研究----2009-01-01到2011-12-31
其他纵向项目----1980-01-01到2010-01-01
微介质锥、纳金属锥和纳金属锥孔中的光场调控----2013-01-01到2016-12-31
螺旋轴锥镜产生的新型光束激发局域表面等离激元的研究----2010-01-01到2012-12-31
蓝宝石上硅基纳米结构光导天线的研究----2009-01-01到2011-12-31
其他纵向项目----1980-01-01到2010-01-01
微介质锥、纳金属锥和纳金属锥孔中的光场调控----2013-01-01到2016-12-31
螺旋轴锥镜产生的新型光束激发局域表面等离激元的研究----2010-01-01到2012-12-31
蓝宝石上硅基纳米结构光导天线的研究----2009-01-01到2011-12-31
其他纵向项目----1980-01-01到2010-01-01
海豚形元胞超表面和金属纳米锥复合结构调控的矢量光场----2018-04-01到2021-03-31
基于微光学元件的空间目标超分辨率成像技术----2016-09-22
其他横向项目----1980-01-01
基于微光学元件的空间目标超分辨率成像技术----2016-09-22
其他横向项目----1980-01-01
论文/专著/教材
[1] Zhuo Yang, Dengfeng Kuang*, and Fang Cheng, "Vector vortex beam generation with dolphin-shaped cell meta-surface," Opt. Express 25, 22780-22788 (2017).
[2] Yuxiang Wen, Dengfeng Kuang*, Jinhui Huang, and Yi Zhang, Microaxicave colour analysis system for fluoride concentration using a smartphone, RSC Adv., 2017, 7, 42339–42344
[3] Fang Cheng, Deng-Feng Kuang*, Li-Qun Dong, Yan-Yan Cao, and Pan-Chun Gu, Tuning of nanofocused vector vortex beam of metallic granary-shaped nanotip with spin-dependent dielectric helical cone, Opt. Express 25(15), 17393-17401 (2017).
[4] Dengfeng Kuang*, Liqun Dong and Yanyan Cao, Tuning of plasmonic nanofocusing with non-linear metallic helical nanocone, Plasmonics, 2017, 12(3): 685-690.
[5] Dengfeng Kuang*, Yanyan Cao, Thierry Lépine, and Wenbo Mi, Curved surface plasmon polariton excitation with shaped beam by fifth-power phase mask, IEEE Photonics Journal, 2015, 7(6): 4801705.
[6] Dengfeng Kuang*, Renée Charrière, Natalia Matsapey, Manuel Flury, Jenny Faucheu, and Pierre Chavel, Modeling the specular spectral reflectance of partially ordered alumina nanopores on an aluminum substrate, Opt. Express 2015, 23(4):4506-4516.
[7] Dengfeng Kuang*, Delun Zhang, and Sheng Ouyang, Hybridly polarized nanofocusing of metallic helical nanocone, IEEE Photonics Journal, 2014, 6(2):4800409.
[8] Dengfeng Kuang*, Renée Charrière, Jenny Faucheu, Pierre Chavel, Modelling the colors of quasi-ordered alumina pores, ICO-23 (23rd Congress of the International Commission for Optics), Santiago de Compostela (Spain), 2014, August 26-29.
[9] Dengfeng Kuang*, Mathieu Hebert, Maxime Mallet, Jean-Paul Hugonin, Mondher Besbes, Benjamin Dusser, Sébastien Landon, Pierre Chavel, Randomness effects on the diffraction by ripples on metal surfaces generated by short laser pulses, EOSAM 2014 (European Optical Society Annual Meeting), Berlin (Germany), 2014, September 15-19.
[10] Dengfeng Kuang*, Thierry Lépine, Jianliang Tian and Paul Dufouleur, Beam shaping with multiple-powered phase masks, Proceedings of SPIE 9271, Holography, Diffractive Optics, and Applications VI, 2014, 9271:92710K
[11] Wei Li, Dengfeng Kuang*, Fei Fan, Shengjiang Chang, and Lie Lin, Subwavelength B-shaped metallic hole array terahertz filter with InSb bar as thermally tunable structure, Appl. Opt. , 2012, 51(29):7098-7102.
[12] Dengfeng Kuang*, Sheng Ouyang, and Zhongxun Du, Nanofocusing enhancement in a tapered slit by using a dielectric micro isosceles triangle prism and tuning the entrance aperture, Appl. Phys. Lett., 2012, 101(3):031101.
[13] Dengfeng Kuang*, Zhongxun Du, Sheng Ouyang, Meirui Han and Zhiliang Fang, Efficient surface plasmon polariton excitation with the beam generated by micro triangular prism, Plasmonics, 2012, 7(3):383-387.
[14] Changhui Wang, Dengfeng Kuang*, Shengjiang Chang, Lie Lin, Terahertz wave confinement in pillar photonic crystal with a tapered waveguide and a point defect, Chinese Physics Letters, 2012, 29(12):124205.
[15] Zonghua Zhang, Zhao Jing, Zhaohui Wang, and Dengfeng Kuang, Comparison of Fourier transform, windowed Fourier transform, and wavelet transform methods for phase calculation at discontinuities in fringe projection prolometry, Optics and Lasers in Engineering, 2012, 50(8):1152-1160.
[16] Dengfeng Kuang*, Meirui Han, Zhongxun Du, Sheng Ouyang and Zhiliang Fang, Beam matrices generated by transmitting microaxicave arrays, Journal of Optics, 2011, 13(10):105708.
[17] C. Jin, H. Liu, P. Li, D.F. Kuang, H.L. Bai, Anomalous magnetic properties of the epitaxial CoFe2O4 films prepared by reactive cosputtering, Journal of Applied Physics, 2011, 110(1):013917.
[18] Dengfeng Kuang*, Meirui Han, Hui Gao, Zhongxun Du and Zhiliang Fang, Interferometric characterization of a microaxicon with a single fringe pattern, Journal of Optics, 2011, 13(3):035501.
[19] Hui Feng, Zhaohui Wang, Dengfeng Kuang, Zonghua Zhang, and Sixiang Zhang, 3D hand and palmprint acquisition using full-field composite color fringe projection, Proceedings of SPIE - The International Society for Optical Engineering,2011, 8194:819426
[20] Dengfeng Kuang* and Zhiliang Fang, Microaxicave: inverted microaxicon to generate a hollow beam, Opt. Lett., 2010, 35(13):2158-2160.
[21] Dengfeng Kuang* and Zhiliang Fang, Diffraction efficiency analysis of blazed grating fabricated by direct laser writing, Proceedings of SPIE - The International Society for Optical Engineering: Holography, Diffractive Optics, and Applications IV, 2010, 7848:78480P.
[22] Huaijun Wang, Dengfeng Kuang*, Xiaodong Sun, and Zhiliang Fang, Period interaction on diffraction efficiency of blazed transmission gratings, Optik, 2010, 121(16):1511-1515.
[23] X.C Wang, W.B Mi, D.F. Kuang, Microstructure, magnetic and optical properties of sputtered polycrystalline ZnO films with Fe addition, Applied Surface Science, 2010, 256(6):1930-1935.
[24] Dengfeng Kuang*, Xiaoliang Zhang, Min Gui, and Zhiliang Fang, Hexagonal microlens array fabricated by direct laser writing and inductively coupled plasma etching on organic light emitting devices to enhance the outcoupling efficiency, Appl. Opt., 2009, 48(5):974-978.
[25] Jun Chen, Dengfeng Kuang*, Zhiliang Fang, Properties of Fraunhofer diffraction by an annular spiral phase plate for sidelobe suppression, Chinese Physics Letters, 2009, 26 (9):094210.
[26] Dengfeng Kuang*, Uta Ellmer, Min Gui and Zhiliang Fang, Fabrication, characterization and analysis of a microaxicon, J. Opt. A: Pure Appl. Opt., 2009, 11(8):085601.
[27] Gaid Moulin, François Goudail, Pierre Chavel, and Dengfeng Kuang, Heuristic models for diffraction by some simple micro-objects, J. Opt. Soc. Am. A, 2009, 26(4):767-775.
[28] Jun Chen, Dengfeng Kuang*, Min Gui, Zhiliang Fang, Generation of optical vortex using a spiral phase plate fabricated in quartz by direct laser writing and inductively coupled plasma etching, Chinese Physics Letters, 2009, 26 (1): 014202.
[29] 桂敏, 匡登峰*, 方志良, 基于相位测量法测量透射式相位光栅的表面形貌, 光电子•激光, 2009, 20(10):1337-1341.
[30] 王怀军, 匡登峰*, 方志良, 一步激光直写制作透射式相位光栅, 光电子•激光, 2008, 19(10):1332-1334.
[31] Yang Yang, Jianjun Yang, Chunyong Liang, Hongshui Wang, Xiaonong Zhu, Dengfeng Kuang, Yong Yang, Sub-wavelength surface structuring of NiTi alloy by femtosecond laser pulses, Applied Physics A: Materials Science and Processing, 2008, 92(3):635-642.
[32] Nan Lu, Dengfeng Kuang*, Guoguang Mu, Design of transmission blazed binary gratings for optical limiting with the form-birefringence theory, Appl. Opt., 2008, 47(21):3743-3750.
[33] Huaijun Wang, Dengfeng Kuang*, Zhiliang Fang, Diffraction Analysis of Blazed Transmission Gratings with a Modified Extended Scalar Theory, JOSA A, 2008, 25(6): 1253-1259.
[34] Dengfeng Kuang, Gaid Moulin, François Goudail, Pierre Chavel, Approximations scalaires de la diffraction par des réseaux de phase à parois triangulaires, OPTIQUE Grenoble 2007, P22.
[35] 匡登峰, 方志良, 杨勇,原子力显微镜加工红外微透镜阵列的研究, 光子学报, 2007, 36(4): 659-662.
[36] 匡登峰, 刘庆纲, 胡小唐, 胡留长, 郭维廉, 纳米隧道结的制备和特性研究, 物理学报, 2006, 55(1):80-83.
[37] 张超艳, 刘庆纲, 李敏, 匡登峰, 郭维廉, 张世林, 胡小唐, 隧道结TiOx线宽度对隧穿现象的影响, 半导体学报, 2006, 27(8):1453-1457.
[38] 匡登峰, 刘庆纲, 方志良, 杨勇, 胡小唐, AFM加工的Ti纳米氧化钛线的直线度分析, 光电子•激光, 2005, 15(12):31-34.
[39] Dengfeng Kuang, Qinggang Liu, Weilian Guo, Shilin Zhang, and Xiaotang Hu, Method to detect the property of complex oxide structure formed by AFM anodic oxidation completely, Ultramicroscopy, 2005, 105 (1-4):111-114.
[40] Dengfeng Kuang, Qinggang Liu, Weilian Guo, Shilin Zhang, and Xiaotang Hu, Current detection during tip-induced anodic oxidation of titanium by atomic force microscope, Proceedings of SPIE, 2005, 5635:305-312.
[41] 匡登峰, 刘庆纲, 郭维廉, 张世林, 胡小唐, 大气湿度对AFM针尖氧化加工金属Ti膜的影响, 压电与声光, 2004, 26 (3) :234-236
[42] Dengfeng Kuang, Qinggang Liu, Wenbo Mi, Haili Bai and Xiaotang Hu, Fabrication and Characterization of Thin Ti Film for Nano Devices, Proceedings of the Second International Symposium on Instrumentation Science and Technology, 2004, 3(3):0464-0467.
[43] Qinggang Liu, Dengfeng Kuang, Shilin Zhang, Weilian Guo, and Xiaotang Hu, Analysis of AFM tip induced oxidation of thin metal film in the air, Proceedings of SPIE, 2003, 5220: 108-116.
[44] 匡登峰, 刘庆纲, 胡小唐, 郭维廉, 张世林, 大气状态下AFM针尖诱导氧化加工Ti膜的机理分析, 半导体学报, 2003, 24 (12):1303-1306.
[45] 匡登峰, 刘庆纲, 郭维廉, 张世林, 胡小唐, 用于纳米光电器件的Ti纳米氧化线的AFM加工, 光电子•激光, 2003, 14 (12):1296-1298.
[46] Qinggang Liu, Dengfeng Kuang, Lifen Zheng, Zhan Wang and Xiaotang Hu, Methods of improving photoconductive sampling, Proceedings of the Second International Symposium on Instrumentation Science and Technology, 2002, 2(2):509-513.
[47] 匡登峰, 刘庆纲, 胡小唐, 超高速器件的采样技术, 仪器仪表学报, 2002, 23(5):15-18.
注:*为通讯作者
讲授课程
概率论与数理统计(本科生),专业英语(研究生),微光学器件设计及应用(研究生) |
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社会兼职
中国图像图形学学会理事,天津市图像图形学学会常务理事,天津市激光技术学会常务理事,广东省光电技术协会专家委员会委员,国家自然基金项目评审专家,浙江省自然基金评审专家,《光电子快报》编审,Journal of the American Chemical Society (JACS)、Optics Letter、Optics Express、 Plasmonics、 JOSA A、Applied Optics、Journal of Modern Optics、Chinese Physics Letter审稿人 |