基本信息
罗先刚,博士,研究员,博士生导师,中国科学院光电技术研究所
中国工程院院士,现任中科院光电技术研究所所长,微细加工光学技术国家重点实验室主任,中国光学学会光学制造专委会主任。国家杰出青年科学基金获得者,国家973项目首席科学家,国际光学工程学会、国际光子学与激光工程学会、中国光学学会、美国光学学会等学会会士。主要研究方向包括数字光学,悬链线光学,微纳光刻,亚波长电磁学,结构功能材料及器件,仿生光子器件及系统等。研究成果获国家技术发明一等奖/二等奖、省部级技术发明特等奖、一等奖多项。
多名学生获中科院院长特别奖、院百篇优秀博士论文等荣誉。
电子邮件: lxg@ioe.ac.cn
通信地址: 四川成都双流西航港光电大道1号
邮政编码: 610209
研究领域
招生信息
招生专业
080402-测试计量技术及仪器
招生方向
微纳光学测试技术
教育背景
1998-09--2001-03 中国科学院光电技术研究所 博士1995-09--1998-07 中国科学院光电技术研究所 硕士
学历
中国科学院光电所 19980901--20010701 研究生毕业
学位
中国科学院光电所 19980901--20010701 工学博士学位
工作经历
工作简历
2004-12~现在, 中国科学院光电技术研究所, 研究员2001-05~2005-01,日本理化学研究所, Research Scientist
专利与奖励
出版信息
发表论文
[1] Luo, Xiangang. Intelligent metasurface realizes human robots with 'brain' and 'limbs'. NATIONAL SCIENCE REVIEW. 2023, 10(8): http://dx.doi.org/10.1093/nsr/nwad064.[2] Zhang, Runzhe, Guo, Yinghui, Li, Xiaoyin, He, Qiong, Zhang, Qi, Zhang, Fei, Xu, Mingfeng, Wang, Maoyu, Pu, Mingbo, Luo, Xiangang. Angular Superoscillatory Metalens Empowers Single-Shot Measurement of OAM Modes with Finer Intervals. ADVANCED OPTICAL MATERIALS. 2023, http://dx.doi.org/10.1002/adom.202300009.[3] Cai, Jixiang, Zhang, Fei, Pu, Mingbo, Chen, Yan, Guo, Yinghui, Xie, Ting, Feng, Xingdong, Jiang, Baoshan, Ma, Xiaoliang, Li, Xiong, Yu, Honglin, Luo, Xiangang. Dispersion-Enabled Symmetry Switching of Photonic Angular-Momentum Coupling. ADVANCED FUNCTIONAL MATERIALS. 2023, 33(19): https://www.doi.org/10.1002/adfm.202212147.[4] Xie, Ting, Zhang, Fei, Pu, Mingbo, Bao, Hanlin, Jin, Jinjin, Cai, Jixiang, Chen, Lianwei, Guo, Yinghui, Feng, Xingdong, He, Qiong, Ma, Xiaoliang, Li, Xiong, Jiang, Baoshan, Luo, Xiangang. Ultrathin, Wide-Angle, and High-Resolution Meta-Imaging System via Rear-Position Wavevector Filter. LASER & PHOTONICS REVIEWS. 2023, http://dx.doi.org/10.1002/lpor.202300119.[5] Wen, Yifeng, Zhang, Qi, He, Qiong, Zhang, Feifei, Xiong, Lingxing, Zhang, Fei, Fu, Guoquan, Xu, Junwen, Pu, Mingbo, Luo, Xiangang. Shortening Focal Length of 100-mm Aperture Flat Lens Based on Improved Sagnac Interferometer and Bifacial Liquid Crystal. ADVANCED OPTICAL MATERIALS. 2023, http://dx.doi.org/10.1002/adom.202300127.[6] Zhang, Fei, Guo, Yinghui, Pu, Mingbo, Chen, Lianwei, Xu, Mingfeng, Liao, Minghao, Li, Lanting, Li, Xiong, Ma, Xiaoliang, Luo, Xiangang. Meta-optics empowered vector visual cryptography for high security and rapid decryption. NATURE COMMUNICATIONS[J]. 2023, 14(1): http://dx.doi.org/10.1038/s41467-023-37510-z.[7] Luo, Xiangang. Multiscale Optical Field Manipulation via Planar Digital Optics. ACS PHOTONICS[J]. 2023, 10(7): 2116-2127, http://dx.doi.org/10.1021/acsphotonics.2c01752.[8] Gong, Jintao, Xiong, Lingxing, Pu, Mingbo, Wen, Yifeng, Cai, Jixiang, Feng, Xingdong, Pan, Rui, He, Qiong, Guo, Yinghui, Chi, Nan, Ma, Xiaoliang, Li, Xiong, Luo, Xiangang. High-Throughput Fabrication of Curved Plasmonic Metasurfaces for Switchable Beam Focusing and Thermal Infrared Cloaking. ADVANCED OPTICAL MATERIALS. 2023, http://dx.doi.org/10.1002/adom.202300608.[9] Luo, Xiangang. High-precision fabrication of 4m SiC aspheric mirror. LIGHT-SCIENCE & APPLICATIONS[J]. 2023, 12(1): 3-4, http://dx.doi.org/10.1038/s41377-022-01050-w.[10] Luo, Guoyu, Lv, Xinyu, Kong, Weijie, Wang, Changtao, Pu, Mingbo, Wang, Yanqin, Ma, Xiaoliang, Li, Zhiqiang, Luo, Xiangang. High-efficiency in situ amplitude and phase control of infrared light using topological polaritons. NANOSCALE[J]. 2023, 15(26): 11155-11162, http://dx.doi.org/10.1039/d3nr01497e.[11] Fu, Guoquan, Chen, Siran, He, Qiong, Xiong, Lingxing, Wen, Yifeng, Zhang, Fei, Lu, Yuran, Guo, Yinghui, Pu, Mingbo, Luo, Xiangang. Optimized Catenary Metasurface for Detecting Spin and Orbital Angular Momentum via Momentum Transformation. APPLIED SCIENCES-BASEL[J]. 2023, 13(5): http://dx.doi.org/10.3390/app13053237.[12] Pan, Rui, Cai, Yuanlingyun, Zhang, Feifei, Wang, Si, Chen, Lianwei, Feng, Xingdong, Ha, Yingli, Zhang, Renyan, Pu, Mingbo, Li, Xiong, Ma, Xiaoliang, Luo, Xiangang. High Performance Graphene-C-60-Bismuth Telluride-C-60-Graphene Nanometer Thin Film Phototransistor with Adjustable Positive and Negative Responses. ADVANCED SCIENCE[J]. 2023, 10(10): http://dx.doi.org/10.1002/advs.202206997.[13] Liao, Jianming, Ji, Chen, Yuan, Liming, Wang, Yuetang, Peng, Jinqiang, Huang, Cheng, Luo, Xiangang. Data-driven docking control of autonomous double-ended ferries based on iterative model control. ACS APPLIED MATERIALS & INTERFACES. 2023, http://dx.doi.org/10.1021/acsami.2c21565.[14] Lei, Yunsong, Zhang, Qi, Guo, Yinghui, Pu, Mingbo, Zou, Fang, Li, Xiong, Ma, Xiaoliang, Luo, Xiangang. Snapshot multi-dimensional computational imaging through a liquid crystal diffuser. PHOTONICS RESEARCH[J]. 2023, 11(3): B111-B124, http://dx.doi.org/10.1364/PRJ.476317.[15] Gong, Tiancheng, 刘凯鹏, Luo, Yunfei, 孔维杰, Yue, Weisheng, 王长涛, 罗先刚. Ultrasensitive enhanced Raman spectroscopy by hybrid surface-enhanced and interference-enhanced Raman scattering with metal-insulator-metal structures. Optics Express[J]. 2023, 31(10): 15848-15863, https://doi.org/10.1364/OE.488410.[16] Zhang, Fei, Pu, MingBo, Guo, YingHui, Ma, XiaoLiang, Li, Xiong, Gao, Ping, Luo, XianGang. Synthetic vector optical fields with spatial and temporal tunability. SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY[J]. 2022, 65(5): 43-50, http://dx.doi.org/10.1007/s11433-021-1851-0.[17] Luo, Xiangang, Zhang, Fei, Pu, Mingbo, Xu, Mingfeng. Catenary optics: a perspective of applications and challenges. JOURNAL OF PHYSICS-CONDENSED MATTER[J]. 2022, 34(38): [18] Zhang, Haochen, Zhang, Xu, Ma, Xiaoliang, Pu, Mingbo, Huang, Cheng, Zhang, Zuojun, Wang, Yanxun, Guo, Yinghui, Luo, Jun, Luo, Xiangang. Full-space beam scanning based on transmission reflection switchable quadratic phase metasurface. OPTICS EXPRESS[J]. 2022, 30(20): 36949-36959, [19] Huang, Jingkai, Wang, Yuetang, Yuan, Liming, Huang, Cheng, Liao, Jianming, Ji, Chen, Luo, Xiangang. Large-Area and Flexible Plasmonic Metasurface for Laser-Infrared Compatible Camouflage. LASER & PHOTONICS REVIEWS. 2022, 17(3): [20] Li, Zhenyan, Kong, Weijie, Wang, Changtao, Pu, Mingbo, Liu, Xiangzhi, Yin, Ge, Ma, Xiaoliang, Li, Xiong, Luo, Xiangang. Multi-Wavelength Super-Resolution Imaging by Structured Illumination of Bloch Surface Waves. IEEE PHOTONICS JOURNAL[J]. 2022, 14(4): [21] Ha, Yingli, Guo, Yinghui, Pu, Mingbo, Xu, Mingfeng, Li, Xiong, Ma, Xiaoliang, Zou, Fang, Luo, Xiangang. Meta-Optics-Empowered Switchable Integrated Mode Converter Based on the Adjoint Method. NANOMATERIALS[J]. 2022, 12(19): http://dx.doi.org/10.3390/nano12193395.[22] Zhang, Haomiao, Gao, Ping, Li, Xiong, Pu, Mingbo, Ma, Xiaoliang, Guo, Yinghui, Wang, Changtao, Zhao, Zeyu, Luo, Xiangang. Numerical and experimental analysis of patterning multi-period and multi-radius metasurfaces. MATERIALS TODAY ADVANCES[J]. 2022, 14: https://doaj.org/article/e25a0f1c10954ef6a6bcb1d0643849ad.[23] Peng, Jinqiang, She, Ying, Su, He, Ji, Chen, Huang, Cheng, Luo, Xiangang. A Multifunctional Reconfigurable Absorber Enabled by Graphene and Shape Memory Alloy. ADVANCED OPTICAL MATERIALS. 2022, 11(5): [24] Li, Dongxian, Zhang, Tao, Yue, Weisheng, Gao, Ping, Luo, Yunfei, Wang, Changtao, Luo, Xiangang. Identification and classification of particle contaminants on photomasks based on individual-particle Raman scattering spectra and SEM images. RSC ADVANCES[J]. 2022, 12(51): 33349-33357, http://dx.doi.org/10.1039/d2ra05672k.[25] Feng, Xingdong, Pu, Mingbo, Zhang, Fei, Pan, Rui, Wang, Si, Gong, Jintao, Zhang, Renyan, Guo, Yinghui, Li, Xiong, Ma, Xiaoliang, Luo, Xiangang. Large-Area Low-Cost Multiscale-Hierarchical Metasurfaces for Multispectral Compatible Camouflage of Dual-Band Lasers, Infrared and Microwave. ADVANCED FUNCTIONAL MATERIALS. 2022, 32(36): http://dx.doi.org/10.1002/adfm.202205547.[26] Sang, Di, Xu, Mingfeng, Pu, Mingbo, Zhang, Fei, Guo, Yinghui, Li, Xiong, Ma, Xiaoliang, Fu, Yunqi, Luo, Xiangang. Toward High-Efficiency Ultrahigh Numerical Aperture Freeform Metalens: From Vector Diffraction Theory to Topology Optimization. LASER & PHOTONICS REVIEWS[J]. 2022, 16(10): https://www.doi.org/10.1002/lpor.202200265.[27] Jin, Qijian, Liang, Gaofeng, Kong, Weijie, Liu, Ling, Wen, Zhongquan, Zhou, Yi, Wang, Changtao, Chen, Gang, Luo, Xiangang. Negative index metamaterial at ultraviolet range for subwavelength photolithography. NANOPHOTONICS[J]. 2022, 11(8): 1643-1651, http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:000789610800014.[28] Cai, Jixiang, Zhang, Fei, Pu, Mingbo, Chen, Yan, Guo, Yinghui, Xie, Ting, Feng, Xingdong, Ma, Xiaoliang, Li, Xiong, Yu, Honglin, Luo, Xiangang. All-metallic high-efficiency generalized Pancharatnam-Berry phase metasurface with chiral meta-atoms. NANOPHOTONICS[J]. 2022, 11(9): 1961-1968, http://dx.doi.org/10.1515/nanoph-2021-0811.[29] Zhang, Renyan, Wei, Yuehua, Kang, Yan, Pu, Mingbo, Li, Xiong, Ma, Xiaoliang, Xu, Mingfeng, Luo, Xiangang. Breaking the Cut-Off Wavelength Limit of GaTe through Self-Driven Oxygen Intercalation in Air. ADVANCED SCIENCE[J]. 2022, 9(9): https://doaj.org/article/3a6577b95b364d89a29f956dd1731ffb.[30] Cai, Jixiang, Zhang, Fei, Pu, Mingbo, Xie, Ting, Feng, Xingdong, Yu, Honglin, Luo, Xiangang. Broadband and high-efficiency photonic spin-Hall effect with all-metallic metasurfaces. OPTICS EXPRESS[J]. 2022, 30(9): 14938-14947, http://dx.doi.org/10.1364/OE.455381.[31] Liu, Xiangzhi, Kong, Weijie, Wang, Changtao, Pu, Mingbo, Li, Zhenyan, Yuan, Di, Li, Xiong, Ma, Xiaoliang, Luo, Xiangang. Hyperbolic metamaterial-assisted structured illumination microscopy using periodic sub- diffraction speckles. OPTICAL MATERIALS EXPRESS[J]. 2022, 12(8): 3108-3117, [32] Zheng, Yuhan, Xu, Mingfeng, Pu, Mingbo, Zhang, Fei, Sang, Di, Guo, Yinghui, Li, Xiong, Ma, Xiaoliang, Luo, Xiangang. Designing high-efficiency extended depth-of-focus metalens via topology-shape optimization. NANOPHOTONICS[J]. 2022, 11(12): 2967-2975, https://doaj.org/article/4f2a5dc0a24e414eafe64fab5f961202.[33] Lu, Xinjian, Li, Xiaoyin, Guo, Yinghui, Pu, Mingbo, Wang, Jiangyu, Zhang, Yaxin, Li, Xiong, Ma, Xiaoliang, Luo, Xiangang. Broadband high-efficiency polymerized liquid crystal metasurfaces with spin-multiplexed functionalities in the visible. PHOTONICS RESEARCH[J]. 2022, 10(6): 1380-1393, http://dx.doi.org/10.1364/PRJ.452272.[34] Wang, Jiangyu, Zhang, Zuojun, Huang, Cheng, Pu, Mingbo, Lu, Xinjian, Ma, Xiaoliang, Guo, Yinghui, Luo, Jun, Luo, Xiangang. Transmission-Reflection-Integrated Quadratic Phase Metasurface for Multifunctional Electromagnetic Manipulation in Full Space. ADVANCED OPTICAL MATERIALS[J]. 2022, 10(6): http://dx.doi.org/10.1002/adom.202102111.[35] Lei, Yunsong, Guo, Yinghui, Pu, Mingbo, He, Qiong, Gao, Ping, Li, Xiong, Ma, Xiaoliang, Luo, Xiangang. Multispectral Scattering Imaging Based on Metasurface Diffuser and Deep Learning. PHYSICA STATUS SOLIDI-RAPID RESEARCH LETTERS[J]. 2022, 16(2): http://dx.doi.org/10.1002/pssr.202100469.[36] 徐明峰, 何琼, 蒲明博, 张飞, 李雄, 罗先刚. Emerging Long‐Range Order from a Freeform Disordered Metasurface. Advanced Materials[J]. 2022, 34(12): 2108709-, [37] Liao, Jianming, Guo, Shaojun, Yuan, Liming, Ji, Chen, Huang, Cheng, Luo, Xiangang. Independent Manipulation of Reflection Amplitude and Phase by a Single-Layer Reconfigurable Metasurface. ADVANCED OPTICAL MATERIALS[J]. 2022, 10(4): http://dx.doi.org/10.1002/adom.202101551.[38] She, Ying, Ji, Chen, Huang, Cheng, Zhang, Zuojun, Liao, Jianming, Wang, Jiangyu, Luo, Xiangang. Intelligent reconfigurable metasurface for self-adaptively electromagnetic functionality switching. PHOTONICS RESEARCH[J]. 2022, 10(3): 769-776, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=7178091&detailType=1.[39] Luo, Xiangang, Pu, Mingbo, Zhang, Fei, Xu, Mingfeng, Guo, Yinghui, Li, Xiong, Ma, Xiaoliang. Vector optical field manipulation via structural functional materials: Tutorial. JOURNAL OF APPLIED PHYSICS[J]. 2022, 131(18): http://dx.doi.org/10.1063/5.0089859.[40] Zhang, Yaxin, Pu, Mingbo, Jin, Jinjin, Lu, Xinjian, Guo, Yinghui, Cai, Jixiang, Zhang, Fei, Ha, Yingli, He, Qiong, Xu, Mingfeng, Li, Xiong, Ma, Xiaoliang, Luo, Xiangang. Crosstalk-free achromatic full Stokes imaging polarimetry metasurface enabled by polarization-dependent phase optimization. OPTO-ELECTRONIC ADVANCES[J]. 2022, 5(11): 16-28, [41] Yuan, Liming, Liao, Jianming, Ren, Aobo, Huang, Cheng, Ji, Chen, Wu, Jiang, Luo, Xiangang. Ultra-narrow-band Infrared Absorbers Based on Surface Plasmon Resonance. PLASMONICS[J]. 2021, 16(4): 1165-1174, http://dx.doi.org/10.1007/s11468-021-01384-y.[42] Kong, Weijie, Wang, Changtao, Pu, Mingbo, Ma, Xiaoliang, Li, Xiong, Luo, Xiangang. Bloch Surface Wave Assisted Structured Illumination Microscopy for Sub-100 nm Resolution. IEEE PHOTONICS JOURNAL[J]. 2021, 13(1): http://dx.doi.org/10.1109/JPHOT.2020.3044920.[43] Liu, Xiangzhi, Kong, Weijie, Wang, Changtao, Pu, Mingbo, Li, Zhenyan, Li, Xiong, Ma, Xiaoliang, Luo, Xiangang. Bulk plasmon polariton based structured illumination microscopy by utilizing hyperbolic metamaterials. JOURNAL OF PHYSICS D-APPLIED PHYSICS[J]. 2021, 54(28): http://dx.doi.org/10.1088/1361-6463/abf78b.[44] Li, Zhu, Wang, Changtao, Wang, Yanqin, Lu, Xinjian, Guo, Yinghui, Li, Xiong, Ma, Xiaoliang, Pu, Mingbo, Luo, Xiangang. Super-oscillatory metasurface doublet for sub-diffraction focusing with a large incident angle. OPTICS EXPRESS[J]. 2021, 29(7): 9991-9999, http://dx.doi.org/10.1364/OE.417884.[45] Zhang, Fei, Pu, Mingbo, Li, Xiong, Ma, Xiaoliang, Guo, Yinghui, Gao, Ping, Yu, Honglin, Gu, Min, Luo, Xiangang. Extreme-Angle Silicon Infrared Optics Enabled by Streamlined Surfaces. ADVANCED MATERIALS[J]. 2021, 33(11): http://dx.doi.org/10.1002/adma.202008157.[46] Xie, Xin, Pu, Mingbo, Jin, Jinjin, Xu, Mingfeng, Guo, Yinghui, Li, Xiong, Gao, Ping, Ma, Xiaoliang, Luo, Xiangang. Generalized Pancharatnam-Berry Phase in Rotationally Symmetric Meta-Atoms. PHYSICAL REVIEW LETTERS[J]. 2021, 126(18): http://dx.doi.org/10.1103/PhysRevLett.126.183902.[47] Xu, Mingfeng, Pu, Mingbo, Sang, Di, Zheng, Yuhan, Li, Xiong, Ma, Xiaoliang, Guo, Yinghui, Zhang, Renyan, Luo, Xiangang. Topology-optimized catenary-like metasurface for wide-angle and high-efficiency deflection: from a discrete to continuous geometric phase. OPTICS EXPRESS[J]. 2021, 29(7): 10181-10191, http://dx.doi.org/10.1364/OE.422112.[48] Xu, Dong, Luo, Yu, Luo, Jun, Pu, Mingbo, Zhang, Yaxin, Ha, Yinli, Luo, Xiangang. Efficient design of a dielectric metasurface with transfer learning and genetic algorithm. OPTICAL MATERIALS EXPRESS[J]. 2021, 11(7): 1852-1862, http://dx.doi.org/10.1364/OME.427426.[49] Lu, Xinjian, Guo, Yinghui, Pu, Mingbo, Zhang, Yaxin, Li, Zhu, Li, Xiong, Ma, Xiaoliang, Luo, Xiangang. Broadband achromatic metasurfaces for sub-diffraction focusing in the visible. OPTICS EXPRESS[J]. 2021, 29(4): 5947-5958, http://dx.doi.org/10.1364/OE.417036.[50] Luo, Xiangang, Li, Xiong, Pu, Mingbo, Zhang, Fei, Maa, Xiaoliang. Symmetric and asymmetric photonic spin-orbit interaction in metasurfaces. PROGRESS IN QUANTUM ELECTRONICSnull. 2021, 79: http://dx.doi.org/10.1016/j.pquantelec.2021.100344.[51] Luo Xiangang. Metasurface spatiotemporal dynamics and asymmetric photonic spin-orbit interactions mediated vector-polarization optical chaos. Physical Review Research. 2021, [52] Yang, Gensen, Zhang, Fei, Pu, Mingbo, Li, Xiong, Ma, Xiaoliang, Guo, Yinghui, Luo, Xiangang. Dual-wavelength multilevel diffractive lenses for near-infrared imaging. JOURNAL OF PHYSICS D-APPLIED PHYSICS[J]. 2021, 54(17): https://www.webofscience.com/wos/woscc/full-record/WOS:000618781300001.[53] Huang, Cheng, Song, Jiakun, Ji, Chen, Yang, Jianing, Luo, Xiangang. Simultaneous Control of Absorbing Frequency and Amplitude Using Graphene Capacitor and Active Frequency-Selective Surface. IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION[J]. 2021, 69(3): 1793-1798, http://dx.doi.org/10.1109/TAP.2020.3011115.[54] Zhang, Renyan, Wei, Yuehua, Kang, Yan, Pu, Mingbo, Li, Xiong, Ma, Xiaoliang, Xu, Mingfeng, Luo, Xiangang. Breaking the Cut-Off Wavelength Limit of GaTe through Self-Driven Oxygen Intercalation in Air. ADVANCED SCIENCE. 2021, [55] Yinghui Guo, Shicong Zhang, Mingbo Pu, Qiong He, Jinjin Jin, Mingfeng Xu, Yaxin Zhang, Ping Gao, Xiangang Luo. Spin-decoupled metasurface for simultaneous detection of spin and orbital angular momenta via momentum transformation. LIGHT-SCIENCE & APPLICATIONS[J]. 2021, 10(1): 636-647, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7994415/.[56] Li, Zhenyan, Kong, Weijie, Wang, Changtao, Pu, Mingbo, Luo, Yunfei, Liu, Xiangzhi, Du, Wenjuan, Ma, Xiaoliang, Li, Xiong, Luo, Xiangang. Waveguide evanescent waves based structured illumination microscopy with compact structure and flexible design. JOURNAL OF PHYSICS D-APPLIED PHYSICS[J]. 2021, 54(21): https://www.webofscience.com/wos/woscc/full-record/WOS:000625106900001.[57] Huang, Cheng, Ji, Chen, Zhao, Bo, Peng, Jinqiang, Yuan, Liming, Luo, Xiangang. Multifunctional and Tunable Radar Absorber Based on Graphene-Integrated Active Metasurface. ADVANCED MATERIALS TECHNOLOGIES[J]. 2021, 6(4): http://dx.doi.org/10.1002/admt.202001050.[58] Huang, Cheng, Liao, Jianming, Ji, Chen, Peng, Jinqiang, Yuan, Liming, Luo, Xiangang. Graphene-Integrated Reconfigurable Metasurface for Independent Manipulation of Reflection Magnitude and Phase. ADVANCED OPTICAL MATERIALS[J]. 2021, 9(7): http://dx.doi.org/10.1002/adom.202001950.[59] Huang, Cheng, Yang, Jianing, Ji, Chen, Yuan, Liming, Luo, Xiangang. Graphene-Driven Metadevice for Active Microwave Camouflage with High-Efficiency Transmission Window. SMALL METHODS[J]. 2021, 5(2): http://dx.doi.org/10.1002/smtd.202000918.[60] Ha, Yingli, Guo, Yinghui, Pu, Mingbo, Li, Xiong, Ma, Xiaoliang, Zhang, Zuojun, Luo, Xiangang. Monolithic-Integrated Multiplexed Devices Based on Metasurface-Driven Guided Waves. ADVANCED THEORY AND SIMULATIONS[J]. 2021, 4(2): http://dx.doi.org/10.1002/adts.202000239.[61] Zhang, Zuojun, Wang, Jiangyu, Pu, Mingbo, Ma, Xiaoliang, Huang, Cheng, Guo, Yinghui, Luo, Xiangang. Broadband Achromatic Transmission-Reflection-Integrated Metasurface Based on Frequency Multiplexing and Dispersion Engineering. 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MICROELECTRONIC ENGINEERING[J]. 2008, 85(5-6): 929-933, http://dx.doi.org/10.1016/j.mee.2008.01.055.[422] Lin, Lan, Wang, Wei, Du, Chunlei, Luo, Xiangang. A cone-shaped concentrator with varying performances of concentrating. OPTICS EXPRESS[J]. 2008, 16(10): 6809-6814, http://ir.ioe.ac.cn/handle/181551/3651.[423] Yin, Shaoyun, Zhou, Chongxi, Luo, Xiangang, Du, Chunlei. Imaging by a sub-wavelength metallic lens with large field of view. OPTICS EXPRESS[J]. 2008, 16(4): 2578-2583, http://ir.ioe.ac.cn/handle/181551/1940.[424] 方亮, 杜惊雷, 郭小伟, 王景全, 张志友, 罗先刚, 杜春雷. The theoretic analysis of maskless surface plasmon resonant interference lithography by prism coupling. 中国物理:英文版[J]. 2008, 17(7): 2499-2503, http://lib.cqvip.com/Qikan/Article/Detail?id=27748939.[425] Chen, Yanzhong, Zhou, Chongxi, Luo, Xiangang, Du, Chunlei. Structured lens formed by a 2D square hole array in a metallic film. OPTICS LETTERS[J]. 2008, 33(7): 753-755, http://ir.ioe.ac.cn/handle/181551/3633.[426] 张志友, 黄鹏, 郭小伟, 王景全, 方亮, 杜惊雷, 罗先刚, 杜春雷. Multiple Wavelength-Channels in SPP Waveguides for Optical Communication. 中国物理快报:英文版[J]. 2008, 25(3): 996-999, http://lib.cqvip.com/Qikan/Article/Detail?id=26757957.[427] Du, Chunlei, Dong, Xiaochun, Deng, Qiling, Shi, Lifang, Luo, Xiangang, Zhang, Yudong. Micro-optical devices formed by a dynamic photolithographic approach. JOURNAL OF OPTICS A-PURE AND APPLIED OPTICS[J]. 2008, 10(6): http://ir.ioe.ac.cn/handle/181551/3644.[428] Wang, Changtao, Zhao, Yanhui, Gan, Dachun, Du, Chunlei, Luo, Xiangang. Subwavelength imaging with anisotropic structure comprising alternately layered metal and dielectric films. OPTICS EXPRESS[J]. 2008, 16(6): 4217-4227, http://dx.doi.org/10.1364/OE.16.004217.[429] Wang, Wei, Xing, Hui, Fang, Liang, Liu, Yao, Ma, Junxian, Lin, Lan, Wang, Changtao, Luo, Xiangang. Far-field imaging device: planar hyperlens with magnification using multi-layer metamaterial. OPTICS EXPRESS[J]. 2008, 16(25): 21142-21148, http://ir.ioe.ac.cn/handle/181551/2043.[430] Xu, Ting, Zhao, Yanhui, Ma, Junxian, Wang, Changtao, Cui, Jianhua, Du, Chunlei, Luo, Xiangang. Sub-diffraction-limited interference photolithography with metamaterials. OPTICSEXPRESS[J]. 2008, 16(18): 13579-13584, http://ir.ioe.ac.cn/handle/181551/3601.[431] Li, Haiying, Luo, Xiangang, Du, Chunlei, Chen, Xunan, Fu, Yongqi. Ag dots array fabricated using laser interference technique for biosensing. SENSORS AND ACTUATORS B-CHEMICAL[J]. 2008, 134(2): 940-944, http://dx.doi.org/10.1016/j.snb.2008.06.039.[432] Zhao, Zeyu, Deng, Oiling, Xu, Huiliang, Du, Chunlei, Luo, Xiangang. A sectoral horn antenna based on the electromagnetic band-gap structures. MICROWAVE AND OPTICAL TECHNOLOGY LETTERS[J]. 2008, 50(4): 965-969, http://ir.ioe.ac.cn/handle/181551/3604.[433] 史浩飞, 杜春雷, 罗先刚. 基于曲面槽深调制焦点位置的亚波长金属透镜. 激光与光电子学进展[J]. 2008, 19-19, http://lib.cqvip.com/Qikan/Article/Detail?id=26480058.[434] Xu, Huiliang, Zhao, Zeyu, Lv, Yueguang, Du, Chunlei, Luo, Xiangang. Metamaterial superstrate and electromagnetic band-gap substrate for high directive antenna. INTERNATIONAL JOURNAL OF INFRARED AND MILLIMETER WAVES[J]. 2008, 29(5): 493-498, http://ir.ioe.ac.cn/handle/181551/2044.[435] Liu, Yugang, Shi, Haofei, Wang, Changtao, Du, Chunlei, Luo, Xiangang. Multiple directional beaming effect of metallic subwavelength slit surrounded by periodically corrugated grooves. OPTICS EXPRESS[J]. 2008, 16(7): 4487-4493, http://ir.ioe.ac.cn/handle/181551/3632.[436] 李飞, 罗先刚, 朱少丽, 杜春雷, 邓启凌. 一种用于LSPR传感的纳米金属列阵制作方法. 纳米技术与精密工程[J]. 2007, 5(2): 121-124, http://lib.cqvip.com/Qikan/Article/Detail?id=24820281.[437] 朱少丽, 罗先刚, 杜春雷. Discrete Dipole Approximation Aided Design Method for Nanostructure Arrays. 中国物理快报:英文版[J]. 2007, 24(10): 2902-2905, http://lib.cqvip.com/Qikan/Article/Detail?id=25743005.[438] 李海颖, 杜春雷, 陈旭南, 罗先刚. Propagation Properties of Gaussian-Shaped and Double-Side Unsymmetrical Metallic Nano-Corrugations. 中国物理快报:英文版[J]. 2007, 24(10): 2870-2872, http://lib.cqvip.com/Qikan/Article/Detail?id=25742988.[439] Shi, Haofei, Luo, Xiangang, Du, Chunlei. Young's interference of double metallic nanoslit with different widths. OPTICS EXPRESS[J]. 2007, 15(18): 11321-11327, http://ir.ioe.ac.cn/handle/181551/1755.[440] Wei, Xingzhan, Luo, Xiangang, Dong, Xiaochun, Du, Chunlei. Localized surface plasmon nanolithography with ultrahigh resolution. OPTICS EXPRESS[J]. 2007, 15(21): 14177-14183, http://ir.ioe.ac.cn/handle/181551/3595.[441] Li HaiYing, Du ChunLei, Chen XuNan, Luo XianGang. Propagation properties of Gaussian-Shaped and double-side unsymmetrical metallic nano-corrugations. CHINESE PHYSICS LETTERS[J]. 2007, 24(10): 2870-2872, http://lib.cqvip.com/Qikan/Article/Detail?id=25742988.[442] Zhu, Shaoli, Luo, Xiangang, Du, Chunlei, Li, Fei, Yin, Shaoyun, Deng, Qiling, Fu, Yongqi. Hybrid metallic nanoparticles for excitation of surface plasmon resonance. JOURNAL OF APPLIED PHYSICS[J]. 2007, 101(6): http://ir.ioe.ac.cn/handle/181551/1763.[443] Huang, Cheng, Du, Chunlei, Luo, Xiangang. A waveguide slit array antenna fabricated with subwavelength periodic grooves. APPLIED PHYSICS LETTERS[J]. 2007, 91(14): http://ir.ioe.ac.cn/handle/181551/3548.[444] Shi LiFang, Dong XiaoChun, Deng QiLing, Luo XianGang, Du ChunLei. Formation for bass-relief microprofiles based on an analytic formulation. CHINESE PHYSICS LETTERS[J]. 2007, 24(10): 2867-2869, http://lib.cqvip.com/Qikan/Article/Detail?id=25742985.[445] DU Chun-lei DONG Xiao-chun DENG Qi-ling LUO Xian-gang. Micro-optical structures formed by a mask moving method. 光电子快报:英文版[J]. 2007, 3(2): 95-98, http://lib.cqvip.com/Qikan/Article/Detail?id=24115268.[446] Zhu ShaoLi, Luo XianGang, Du ChunLei. Discrete dipole approximation aided design method for nanostructure arrays. CHINESE PHYSICS LETTERS[J]. 2007, 24(10): 2902-2905, http://lib.cqvip.com/Qikan/Article/Detail?id=25743005.[447] Shi, Lifang, Du, Chunlei, Dong, Xiaochun, Deng, Qiling, Luo, Xiangang. Effective formation method for an aspherical microlens array, based on an aperiodic moving mask during exposure. APPLIED OPTICS[J]. 2007, 46(34): 8346-8350, http://ir.ioe.ac.cn/handle/181551/1758.[448] 史立芳, 董小春, 邓启凌, 罗先刚, 杜春雷. Formation for Bass-Relief Microprofiles Based on an Analytic Formulation. 中国物理快报:英文版[J]. 2007, 24(10): 2867-2869, http://lib.cqvip.com/Qikan/Article/Detail?id=25742985.[449] 高仲, 马君显, 周崇喜, 罗先刚, 杜春雷, 王长涛. 大口径多孔透镜离轴成像研究. 光电工程[J]. 2007, 34(9): 25-29, http://lib.cqvip.com/Qikan/Article/Detail?id=25445256.[450] Fu, Yongqi, Zhou, Wei, Lim, Lennie Enk Ng, Du, Chunlei, Luo, Xiangang. Investigation of propagation properties of plasmonic nanostructures with nonparaxial Gaussian beam illumination. JOURNAL OF NANOPHOTONICS[J]. 2007, 1: http://dx.doi.org/10.1117/1.2748428.[451] Shi, Haofei, Du, Chunlei, Luo, Xiangang. Focal length modulation based on a metallic slit surrounded with grooves in curved depths. APPLIED PHYSICS LETTERS[J]. 2007, 91(9): http://ir.ioe.ac.cn/handle/181551/3558.[452] 陈旭南, 石建平, 罗先刚, 陈献忠, 李海颖, 胡承刚, 田宏. 中心对称材料中二次谐波产生的影响因素. 光电子.激光[J]. 2007, 18(1): 5-8, http://lib.cqvip.com/Qikan/Article/Detail?id=24019261.[453] 杜惊雷, 郭小伟, 郭永康, 罗先刚, 杜春雷. 无掩模表面等离子激元干涉光刻. 激光与光电子学进展[J]. 2007, 44(2): 18-18, http://lib.cqvip.com/Qikan/Article/Detail?id=23889376.[454] Xu, Ting, Du, Cunlei, Wang, Changtao, Luo, Xiangang. Subwavelength imaging by metallic slab lens with nanoslits. APPLIED PHYSICS LETTERS[J]. 2007, 91(20): http://ir.ioe.ac.cn/handle/181551/1760.[455] Xu, Huiliang, Lv, Yueguang, Luo, Xiangang, Du, Chunlei. Method for identifying the surface wave frequency band-gap of EBG structures. MICROWAVE AND OPTICAL TECHNOLOGY LETTERS[J]. 2007, 49(11): 2668-2672, http://ir.ioe.ac.cn/handle/181551/1759.[456] Dong, Xiaochun, Du, Chunlei, Wang, Changtao, Deng, Qiling, Zhang, Yudong, Luo, Xiangang. Mask-shift filtering for forming microstructures with irregular profile. APPLIED PHYSICS LETTERS[J]. 2006, 89(26): http://ir.ioe.ac.cn/handle/181551/3540.[457] 罗先刚. Plasmon- related optical properties of unpenetrated metallic. OPTICAL MATERIALS[J]. 2006, 29(2): 211~215-, http://ir.ioe.ac.cn/handle/181551/1539.[458] Wang, Changtao, Du, Chunlei, Luo, Xiangang. Refining the model of light diffraction from a subwavelength slit surrounded by grooves on a metallic film. PHYSICAL REVIEW B[J]. 2006, 74(24): http://ir.ioe.ac.cn/handle/181551/3541.[459] Wang, Changtao, Du, Chunlei, Lv, Yueguang, Luo, Xiangang. Surface electromagnetic wave excitation and diffraction by subwavelength slit with periodically patterned metallic grooves. OPTICS EXPRESS[J]. 2006, 14(12): 5671-5681, http://ir.ioe.ac.cn/handle/181551/3528.[460] 王皓, 罗先刚, 姚汉民, 杜春雷. 微机械往复式无阀泵的振动特性分析. 光学精密工程[J]. 2005, 98-102, http://lib.cqvip.com/Qikan/Article/Detail?id=1000137360.[461] Li Haiying, Shi Jianping, Luo Xiangang, Chen Xunan. Properties of splitting light with metal nanoparicles arrays. CHINESE OPTICS LETTERS[J]. 2005, 3(8): 284-285, http://ir.ioe.ac.cn/handle/181551/1364.[462] 石建平, 罗先刚, 陈旭南. 线性材料PCs中的倍频效应研究. 光电子激光[J]. 2004, 15(增刊): 174-175, http://ir.ioe.ac.cn/handle/181551/889.[463] Luo, XG, Ishihara, T. Surface plasmon resonant interference nanolithography technique. 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科研活动
科研项目
( 1 ) 波的衍射极限关键科学问题研究, 主持, 国家级, 2013-07--2018-06( 2 ) 基于表面等离激元的无掩膜并行纳米直写技术研究, 主持, 国家级, 2012-01--2016-12
指导学生
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徐慧梁 博士研究生 080300-光学工程
杨兰英 博士研究生 080300-光学工程
祁云飞 硕士研究生 080901-物理电子学
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杨学峰 博士研究生 080300-光学工程
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何毅 硕士研究生 070207-光学
曾贝贝 硕士研究生 080401-精密仪器及机械
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黄成 博士研究生 080402-测试计量技术及仪器
莘雪成 硕士研究生 080300-光学工程
李恒一 博士研究生 080300-光学工程
王炯 博士研究生 080300-光学工程
蒲明博 博士研究生 080300-光学工程
姚纳 博士研究生 080300-光学工程
任国伟 博士研究生 080300-光学工程
王民 博士研究生 080300-光学工程
马晓亮 博士研究生 080402-测试计量技术及仪器
易广为 硕士研究生 070207-光学
吴小雨 博士研究生 080300-光学工程
潘文波 博士研究生 080300-光学工程
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罗吉 博士研究生 080300-光学工程
李阳 博士研究生 080300-光学工程
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王彦钦 博士研究生 080300-光学工程
现指导学生
闫超 博士研究生 080300-光学工程
宋世超 博士研究生 080300-光学工程
张晓虎 博士研究生 080300-光学工程
靳金金 博士研究生 080300-光学工程
李可 硕士研究生 080300-光学工程
孙启瑞 硕士研究生 085203-仪器仪表工程
哈颖丽 硕士研究生 080402-测试计量技术及仪器
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黄奕嘉 博士研究生 080402-测试计量技术及仪器
杨佳宁 博士研究生 080402-测试计量技术及仪器
赵承伟 博士研究生 080402-测试计量技术及仪器
刘凯鹏 博士研究生 080402-测试计量技术及仪器