汪磊

时间:2020-04-22浏览:7161


汪磊 副教授 东南大学信息科学与技术学院

邮箱:wang_lei_seu@seu.edu.cn

 

2010获得 南京大学-数学与物理-学士学位,

2013获得 南京大学-凝聚态物理-硕士学位,

2018获得 澳大利亚国立大学-物理-博士学位。

2018-2019澳大利亚国立大学非线性物理中心从事博士后研究。

2020年加入东南大学信息科学与工程学院,国家移动通信研究实验室。

2020年至今,任东南大学副教授。兼任于中国南京紫金山实验室。

 

研究方向包括新型无线光通信体系中:超表面技术、全息技术、非线性纳米光学等技术的应用。以第一作者身份在国际权威期刊Nature Photonics, 国际知名期刊Nano Letters, Optica, Nanoscale,等发表多篇论文。合作研究发表在国际权威期刊Nature Nanotechnology等。多次在CLEOSPIE等国际顶级会议上进行过口头报告。任WCSP2022技术委员会成员,量子信号处理研讨会chair

 

5年内发表的代表性论著

[1]   LeiWang*#, Sergey S Kruk*#, Basudeb Sain, Zhaogang Dong, Joel Yang, Thomas Zentgraf, Yuri Kivshar*. Asymmetric parametric generation of images with nonlinear dielectric metasurfaces[J]. Nature Photonics, 2022, 16(8): 561–565.

 

5年内发表的其他论著

[1]   Zhentian Zhang, Jian Dang, Zaichen Zhang, Liang Wu, Bingcheng Zhu, LeiWang. Pilot-Free Unsourced Random Access Via Dictionary Learning and Error-Correcting Codes[J]. IEEE Transactions on Wireless Communications, 2023: 1–1.

[2]   Kang Liu, Zaichen Zhang, Chuan Zhang, Jian Dang, Liang Wu, Bingchen Zhu, LeiWang. Analysis of a New Energy-Efficient Model for Future Wireless Communication Systems[J]. IEEE Transactions on Wireless Communications, 2023: 1–1.

[3]   Shiyu Jiang, Jian Dang, Zaichen Zhang, Liang Wu, Bingcheng Zhu, LeiWang. EM-AMP-Based Joint Active User Detection and Channel Estimation in Cell-Free System[J]. IEEE Systems Journal, 2023, 17(3): 4026–4037.

[4]   Bingcheng Zhu, Zaichen Zhang, Jian Dang, Liang Wu, LeiWang. Low-complexity visible light positioning and rotation estimation based on eigenvalue decomposition[J]. Journal of Lightwave Technology, 2022, 40(21): 7072–7083.

[5]   Jian Dang, Zaichen Zhang, Yewei Li, Liang Wu, Bingcheng Zhu, LeiWang. Fast and Arbitrary Beam Pattern Design for RIS-Assisted Terahertz Wireless Communication[J]. IEEE Transactions on Vehicular Technology, 2022, 72(2): 2620–2625.

[6]   张在琛, 尤肖虎, 党建, 吴亮, 朱秉诚, 陈绩, 汪磊. 无线光通信与物联网[J]. 物联网学报, 2022, 6(3): 1.

[7]   Yi Tan, Bingcheng Zhu, Zaichen Zhang, LeiWang, Liang Wu, Jian Dang. Wireless optical positioning with multiple photodiodes and LED clusters[C]//2022 IEEE Wireless Communications and Networking Conference (WCNC). , 2022: 2328–2333.

[8]   Hongwei Zhu, Jian Dang, Zaichen Zhang, Liang Wu, Bingcheng Zhu, LeiWang. Adaptive Cyclic Prefix for Multi-RIS Assisted Orthogonal Frequency Division Multiplexing[C]//2022 IEEE 8th International Conference on Computer and Communications (ICCC). , 2022: 938–943.

[9]   Yuanhao Chen, Liang Wu, Zaichen Zhang, Jian Dang, Bingcheng Zhu, LeiWang. Blind interference alignment scheme for dynamic TDD systems[C]//2022 3rd Information Communication Technologies Conference (ICTC). , 2022: 135–140.

[10]  Bingcheng Zhu, Zaichen Zhang, LeiWang, Jian Dang, Liang Wu, Lanting Fang, Julian Cheng. Asymptotic Analysis of Diversity Receptions Over Correlated Lognormal-Rician Fading Channels[C]//2021 IEEE Global Communications Conference (GLOBECOM). , 2021: 1–6.

[11]  Jian Dang, Shicheng Gao, Zaichen Zhang, Liang Wu, Bingcheng Zhu, LeiWang. Joint Optimization for Visible Light Communication and Positioning Based on Information Entropy[C]//2021 7th International Conference on Computer and Communications (ICCC). , 2021: 403–409.

[12]  Haibo Wang, Zaichen Zhang, Bingcheng Zhu, Jian Dang, Liang Wu, LeiWang, Kehan Zhang, Yidi Zhang, Geoffrey Ye Li. Performance analysis of multi-branch reconfigurable intelligent surfaces-assisted optical wireless communication system in environment with obstacles[J]. IEEE Transactions on Vehicular Technology, 2021, 70(10): 9986–10001.

[13]  Zhaohan Zhang, Liang Wu, Zaichen Zhang, Jian Dang, Bingcheng Zhu, LeiWang. AoA-and-amplitude fingerprint based indoor intelligent localization scheme for 5G wireless communications[C]//2021 13th International Conference on Wireless Communications and Signal Processing (WCSP). , 2021: 1–5.

[14]  Lang Cao, Bingcheng Zhu, Zaichen Zhang, LeiWang, Liang Wu, Jian Dang. An improved optical positioning system with LED selection[C]//2021 13th International Conference on Wireless Communications and Signal Processing (WCSP). , 2021: 1–5.

[15]  Yongqing Yu, Bingcheng Zhu, Zaichen Zhang, LeiWang, Liang Wu, Jian Dang. Indoor visible light localization algorithm with the optimal optical angle-of-arrival estimator[C]//2021 2nd Information Communication Technologies Conference (ICTC). , 2021: 194–198.

[16]  Renjie Gui, Ziyi Gong, Zaichen Zhang, Liang Wu, Yin Liu, Jian Dang, LeiWang. Adaptive Hybrid Beamforming for Uplink Multi-user Millimeter Wave Systems[C]//2013 IEEE International Symposium on Circuits and Systems (ISCAS2013). , 2021: 150–155.

[17]  Huachen Yuan, Liang Wu, Zaichen Zhang, Jian Dang, Bingcheng Zhu, LeiWang. Enhanced Optical Quadrature Spatial Modulation for Indoor Visible Light Communications[C]//International Conference on Frontiers of Electronics, Information and Computation Technologies. , 2021: 1–5.

[18]  Yifei Liu, Lang Feng, Liang Wu, Zaichen Zhang, Jian Dang, Bingcheng Zhu, LeiWang. Joint optimization based satellite handover strategy for low earth orbit satellite networks[J]. IET Communications, 2021, 15(12): 1576–1585.

[19]  Jian Dang, Shicheng Gao, Yongdong Zhu, Rongbin Guo, Hao Jiang, Zaichen Zhang, Liang Wu, Bingcheng Zhu, LeiWang. A geometry-based stochastic channel model and its application for intelligent reflecting surface assisted wireless communication[J]. IET Communications, 2021, 15(3): 421–434.

[20]  Sergey Kruk, LeiWang, Basudeb Sain, Zhaogang Dong, Joel Yang, Thomas Zentgraf, Yuri Kivshar. Dielectric metasurfaces with asymmetric generation of nonlinear images[C]//Frontiers in Optics + Laser Science 2021. , 2021: JTu7A-3.

[21]  Sergey Kruk, LeiWang, Basudeb Sain, Zhaogang Dong, Joel Yang, Thomas Zentgraf, Yuri Kivshar. Nonlinear metasurfaces with asymmetric light generation[C]//CLEO: QELS_Fundamental Science. , 2021: FW4H-3.

[22]  Bingcheng Zhu, Zaichen Zhang, LeiWang, Jian Dang, Liang Wu, Lanting Fang, Julian Cheng. Asymptotic Analysis of Diversity Receptions Over Correlated Lognormal-Rician Fading Channels[C]//2021 IEEE Global Communications Conference (GLOBECOM). , 2021: 1–6.

[23]  Christian Schlickriede, Sergey S Kruk, LeiWang, Basudeb Sain, Yuri Kivshar, Thomas Zentgraf. Nonlinear imaging with all-dielectric metasurfaces[J]. Nano letters, 2020, 20(6): 4370–4376.

[24]  Bingcheng Zhu, Zaichen Zhang, LeiWang, Jian Dang, Liang Wu, Julian Cheng, Geoffrey Ye Li. Right tail approximation for the distribution of Lognormal sum and its applications[C]//2020 IEEE Globecom Workshops (GC Wkshps. , 2020: 1–6.

[25]  Sergey Kruk, Alexander Poddubny, Daria Smirnova, LeiWang, Alexey Slobozhanyuk, Alexander Shorokhov, Ivan Kravchenko, Barry Luther-Davies, Yuri Kivshar. Nonlinear light generation in topological nanostructures[J]. Nature nanotechnology, 2019, 14(2): 126–130.

[26]  Christian Schlickriede, Sergey Kruk, LeiWang, Basudeb Sain, Yuri Kivshar, Thomas Zentgraf. Nonlinear dielectric metalenses: imaging and higher-order correlations[C]//CLEO: Science and Innovations. , 2019: JTh5B-10.

[27]  Yuhao Qi, Jian Dang, Zaichen Zhang, Liang Wu, Bingcheng Zhu, LeiWang. Filter Optimization for Non-Orthogonal CP-FBMA System Based on Statistical Channel State Information[J]. IEEE Transactions on Wireless Communications, 2011, 22(2): 839–855.

 

 

5年以外的代表性论著

[1]   LeiWang, Sergey Kruk, Kirill Koshelev, Ivan Kravchenko, Barry Luther-Davies, Yuri Kivshar. Nonlinear Wavefront Control with All-Dielectric Metasurfaces[J]. Nano Letters, 2018, 18(6): 3978–3984.

[2]   LeiWang, Sergey Kruk, Kirill Koshelev, Ivan Kravchenko, Barry Luther-Davies, Yuri Kivshar. Nonlinear Dielectric Metasurfaces for Wavefront Control[C]//2018 Conference on Lasers and Electro-Optics (cleo). , 2018.

[3]   Sergey Kruk, LeiWang, Alexey Slobozhanyuk, Alexander Shorokhov, Daria Smirnova, Ivan Kravchenko, Alexander Poddubny, Yuri Kivshar. Nonlinear Unidirectional Topological States in Zigzag Arrays of Bianisotropic Dielectric Nanoparticles[C]//2018 Conference on Lasers and Electro-Optics (cleo). , 2018.

[4]   Sergey S Kruk, Rocio Camacho-Morales, Lei Xu, Mohsen Rahmani, Daria A Smirnova, LeiWang, Hark Hoe Tan, Chennupati Jagadish, Dragomir N Neshev, Yuri S Kivshar. Nonlinear Optical Magnetism Revealed by Second-Harmonic Generation in Nanoantennas[J]. Nano Letters, 2017, 17(6): 3914–3918.

[5]   LeiWang, Sergey Kruk, Lei Xu, Mohsen Rahmani, Daria Smirnova, Alexander Solntsev, Ivan Kravchenko, Dragomir Neshev, Yuri Kivshar. Shaping the third-harmonic radiation from silicon nanodimers[J]. Nanoscale, 2017, 9(6): 2201–2206.

[6]   LeiWang, Lei Xu, Sergey S Kruk, Daria A Smirnova, Dragomir Neshev, Yuri Kivshar. Nonlinear mirror with All-Dielectric Metasurface[C]//2017 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (cleo/Europe-Eqec). , 2017.

[7]   LeiWang, Sergey S Kruk, Hanzhi Tang, Tao Li, Ivan Kravchenko, Dragomir Neshev, Yuri Kivshar. Highest Efficiency Grayscale All-Dielectric Meta-Holograms[C]//2017 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (cleo/Europe-Eqec). , 2017.

[8]   Sergey S Kruk, Lei Xu, Rocio Camacho-Morales, Mohsen Rahmani, LeiWang, Daria A Smirnova, Guoquan Zhang, Hark Hoe Tan, Chennupati Jagadish, Yuri S Kivshar, Dragomir N Neshev. Magnetic vs Electric Second-Harmonic Generation from AlGaAs Nanoantennas[C]//2017 Conference on Lasers and Electro-Optics (cleo). , 2017.

[9]   Sergey S Kruk, LeiWang, Hanzhi Tang, Ben Hopkins, Andrey Miroshnichenko, Tao Li, Ivan Kravchenko, Dragomir Neshev, Yuri Kivshar. Broadband transparent all-dielectric metasurfaces[C]//2017 Conference on Lasers and Electro-Optics (cleo). , 2017.

[10]  LeiWang, Sergey Kruk, Hanzhi Tang, Tao Li, Ivan Kravchenko, Dragomir N Neshev, Yuri S Kivshar. Grayscale transparent metasurface holograms[J]. Optica, 2016, 3(12): 1504–1505.

[11]  LeiWang, Alexander S Shorokhov, Pavel N Melentiev, Sergey Kruk, Manuel Decker, Christian Helgert, Frank Setzpfandt, Andrey A Fedyanin, Yuri S Kivshar, Dragomir N Neshev. Multipolar Third-Harmonic Generation in Fishnet Metamaterials[J]. ACS Photonics, 2016, 3(8): 1494–1499.

[12]  Yulin Wang, Tao Li, LeiWang, Hao He, Lin Li, Qianjin Wang, Shining Zhu. Plasmonic switch based on composite interference in metallic strip waveguides[J]. Laser & Photonics Reviews, 2014, 8(4): L47–L51.