个人信息
教师姓名:胡昊
教师英文名称:Hu Hao
教师拼音名称:Hu Hao
电子邮箱:
所在单位:电子信息工程学院
职务:教授
学历:博士研究生毕业
办公地点:南京航空航天大学电子信息工程学院434室
性别:男
联系方式:hao.hu@nuaa.edu.cn
学位:工学博士学位
职称:教授
毕业院校:新加坡南洋理工大学
博士生导师
硕士生导师
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所属院系: 电子信息工程学院
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学科:电子科学与技术
信息与通信工程
电子信息
其他联系方式
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个人简介
胡昊博士, 教授/博导, 2023年入选国家重大人才工程A类青年人才, 江苏省特聘教授。
2016年本科毕业于浙江大学光电科学与工程学院;2020年博士毕业于新加坡南洋理工大学电气与电子工程学院;2020-2023年在新加坡南洋理工大学电气与电子工程学院担任博士后;2023年4月加入南京航空航天大学电子信息工程学院担任特聘研究员A类职务;2024年12月晋升为长聘教授;2025年4月任微波光子技术研究所副所长。
主要从事新型人工超构材料的机理及应用研究,致力于创新自由电子辐射、拓扑物理、时变材料、量子非局域等理论,发展片上光源、下一代小型化高能粒子探测器等新型光子器件,开创拓扑扩散学、时空拓扑学新领域。至今共发表学术论文四十余篇(SCI论文47篇), 总引用达900余次。以第一、共一或通讯作者身份在国内外高影响力期刊发表论文23篇,包括2篇Advanced Materials、1篇Nature Communications、1篇Physical Review X、1篇eLight、3篇Laser & Photonics Reviews、1篇Advanced Science、1篇Nanophotonics、2篇ACS Photonics和1篇Photonics Research等。这些成果被Light: Science & Applications亮点报道1次,入选eLight 期刊Featured Article 1次、入选Laser & Photonics Reviews期刊封底1次、入选ACS Photonics期刊封面1次,被众多国内外知名专业科技网站(如Phys.org、EurekAlert!、Mirage News、Azooptics.com、Space Daily、 Florida News Times、DayToNews、Funtitech、Verve Times、中国光学、两江科技、科研留声机、天玑算等)深度正面报道。目前主持国家级、省部级等科研/人才项目累计十余项。
基于此,课题组主要的研究方向有:
(1)自由电子辐射器件:基于超构材料的奇异电磁特性,调控自由电子辐射性质,突破自由电子辐射在能量、阈值、带宽、方向等方面的物理极限,研发新一代高能粒子探测器和可集成自由电子辐射源。相关工作发表于eLight, Nature Communications, Physical Review X, Advanced Science等国际期刊。
(2)动态可调光电子器件:在时间维度调控光和物质相互作用,突破传统光电子器件(如放大器、激光器、隔离器)的增益、带宽、隔离度等物理极限)。相关工作发表于Laser & Photonics Reviews, ACS Photonics等国际期刊。
(3)拓扑器件:通过推广和应用拓扑能带理论,增强传统器件的工作稳定性。相关工作发表于Advanced Materials等国际期刊。
荣誉和奖励
[10] 南京航空航天大学电子信息工程学院“学科建设先进个人”, 2024
[9] 南京航空航天大学“五好”导学团队, 2024
[8] 南京航空航天大学微格教学专项培训“优秀学员”, 2024
[7] 南京市紫金山英才C类, 2024
[6] 国家重大人才工程A类青年项目入选者, 2023
[5] 江苏省特聘教授, 2023
[4] 南京市人社部“留学人员科技活动项目择优资助计划”入选者, 2023
[3] 国家优秀自费留学生奖学金获得者, 2020
[2] Gold Student Paper Award, IEEE Photonics Society Singapore Chapter, 2020
[1] Best Student Paper Award (1st winner), PIERS Xiamen, 2019
学术服务
[15] Youth Editorial Board Member,PhotoniX Synergy,2025
[14] 第一届全国光电融合大会“材料与器件”专题委员,杭州, 中国, 2025年5月24日-26日
[13] 第二届中国光学工程学会青年科学家大会“海外青年科学家交流会”专题主席,宁波, 中国, 2025年4月25日-27日
[12] Session organizer for conference session “Nonlinear and spatiotemporal metamaterials/metasurfaces,” 2024 IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications (IMWS-AMP Nanjing, 2024)
[11] Guest editor for special issue “Design and applications of reconfigurable antenna for 5G communication,” Electronics, 2024
[10] Session organizer for conference session “Integrated metasurfaces/metamaterials on photonic platform,” 2024 International Conference on Metamaterials, Photonic Crystals and Plasmonics (META Toyama, 2024)
[9] Session organizer for conference session “Artificial EM materials,” 2024 IEEE International Conference on Computational Electromagnetics (ICCEM Nanjing, 2024)
[8] Organizing committee member (Registration Chair & Conference Treasurer) for 2024 IEEE International Conference on Computational Electromagnetics (ICCEM Nanjing, 2024)
[7] Session organizer for conference session “Time-modulating metamaterials and time-varying systems,” 2024 Photonics and Electromagnetics Research Symposium (PIERS Chengdu, 2024)
[6] 中国电子学会会员,2023-2024
[5] Session organizer for conference session “Integrated electrically-driven nano-photonic devices,” 2023 Photonics and Electromagnetics Research Symposium (PIERS Prague, 2023)
[4] Guest editor for special issue “Controlling electromagnetics in the nanoscale,” Frontiers in Physics, 2023
[3] President of Optical Socitey of America (OSA), Chapter of Nanyang Technological University, 2018-2020
[2] Vice President of Optical Socitey of America (OSA), Chapter of Nanyang Technological University, 2017-2018
[1] Vice President of IEEE Photonics Society Singapore Chapter, 2018-2019
科研项目
[14] 胡昊(项目负责人), 罗宇, 李茁等,“瞬态光学国际联合实验室,” 国际合作联合实验室培育项目重点项目, 校级, 纵向, 2025-2026
[13] 胡昊(项目负责人), 江苏省双创项目, 省级, 横向, 2025-2027
[12] 胡昊(课题负责人), “基于强非线性效应的*******芯片——*****光放大器,” JWKJW **项目重点项目, 国家级, 纵向, 2025-2027
[11] 胡昊(项目负责人), “时空光子晶体宽带非互易光放大机制及应用研究,” 国家自然科学基金青年项目, 国家级, 纵向, 2025-2027
[10] 胡昊(项目负责人), 刘亮亮, “基于超构材料的自由电子太赫兹辐射特性及其调控机理研究,” 江苏省自然科学基金青年项目, 省级, 纵向, 2024-2026
[9] 罗宇, 潘时龙, 李茁, 胡昊(项目参与人)等,“量子超材料学科创新引智基地,” 学科创新引智基地培育项目, 校级, 纵向, 2024-2025
[8] 胡昊 (项目负责人), 刘亮亮, “时空光子晶体的光放大特性及其调控机理研究,” 基本科研业务费项目(青年科技创新基金项目理工类), 校级, 纵向, 2024-2025
[7] 侯松岩 , 胡昊(项目参与人), “薄膜铌酸锂双微腔电光调制器的相位调控研究,” 雷达成像与微波光子技术教育部重点实验室开放基金, 校级, 纵向, 2024-2026
[6] 罗宇, 刘亮亮, 胡昊(项目参与人)等, “非厄米拓扑集成****技术,” JWKJW重点实验室项目, 国家级, 纵向, 2024-2025
[5] 胡昊(项目负责人), “适用于毫米波/太赫兹光子芯片的高性能自由电子片上光源,” 国家重大人才工程A类青年项目, 国家级, 纵向, 2023-2026
[4] 胡昊(项目负责人), “适用于毫米波/太赫兹光子芯片的高性能自由电子片上光源,” 江苏省特聘教授项目, 省级, 纵向, 2023-2026
[3] 胡昊(项目负责人), “紧凑型量子表面等离子体传感器,” 111引智基地建设科研项目国际学术骨干储备项目, 校级, 纵向, 2023-2024
[2] 胡昊(项目负责人), “时变材料的基本原理及应用研究,” 南京市人社局留学人员科技创新项目择优资助(C类资助), 市级, 纵向, 2023-2024
[1] 胡昊(项目负责人), “时变材料的基本原理及应用研究,” 南京航空航天大学启动基金, 校级, 纵向, 2023-2024
教学与课程
[1] 2024年-至今,电子信息工程专业0424008班班主任
[2] 2025年-至今,现代半导体光电子学 (Modern Semiconductor Photonics and Electronics) [电子信息工程学院研究生课程;中文教学;32/32学时]
[3] 2024年-2025年,半导体光电子学 (Semiconductor Photonics and Electronics) [电子信息工程学院本科生专业选修课程;中文教学;24/24学时]
[4] 2023年-至今,电磁仿真与微波电路计算机辅助设计 (Computer Aided Design for Electromagnetic Simulation and Microwave Circuit) [国际教育学院本科生素质拓展选修课程;英文教学;24/24学时]
[5] 2025年-至今,传感器的原理及应用(Principle and Application of Sensor) [电子信息工程学院本科生专业选修课程;中文教学;32/32学时]
团队成员
团队现有硕士生6名,博士生6名:
2025级 杨山奇 (博士生; 青岛大学硕士; 方向:拓扑光学)
2025级 马江南 (共同导师:罗宇;博士生; 广西科技大学硕士; 方向:光子晶体)
2025级 谢菁英 (共同导师:朱松;硕士生; 南京航空航天大学本科; 方向:光子晶体)
2024级 余尤秀 (博士生; 苏州大学硕士; 方向:时空超材料)
2024级 谢志雄 (博士生; 福建师范大学硕士;方向: 自由电子太赫兹辐射)
2024级 杜奕儒 (硕士生; 中国石油大学本科;方向: 拓扑光学)
2024级 陈杰冉 (硕士生; 杭州电子科技大学本科;方向: 非局域光学)
2024级 陈欣然 (共同导师:黄振宇;硕士生; 中国石油大学本科;方向: 计算电磁学)
2024级 倪德民 (共同导师:罗宇;硕士生; 南京理工大学紫金学院本科;方向: 表面波)
2024级 董 燕 (共同导师:李茁;硕士生; 武汉理工大学;方向: 合成维度)
2023级 杨玉坤 (共同导师:李茁;博士生;南京航空航天硕士; 方向:时变传输线、时域拓扑)
2023级 姜俊凯 (共同导师:李茁;直博生;南京航空航天本科; 方向:时间光子晶体、非厄米光学)
(实验室成员合影--摄于2025年6月5日南京紫金山)
招聘
团队经费充足,研究方向前沿,学术氛围浓厚,国际合作广泛,尊重想法创意,以培养高层次创新型人才为主要目标。每年拟招收1-2名优秀学生攻读博士和1-3名优秀学生攻读硕士,并长期招聘博士后,欢迎有学术抱负的学生加入。其中满足以下条件若干或之一的将优先考虑:
1)良好的数理基础和编程能力
2)优异的英语表达和写作能力
3)凝聚态物理/高能物理/固体物理/量子光学方向的学科背景
4)微波/太赫兹波/电路实验经验
同时也欢迎积极主动的本科生参与科研训练与毕业设计,有机会发表高质量论文。
如有意向,请联系胡昊老师:
申请硕士项目,请发送简历和本科成绩单;
申请博士/博后项目,请发送简历和研究提案(简要描述拟开展的研究方向的背景、意义和计划,及研究基础)。
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联系方式
电子邮箱:hao.hu@nuaa.edu.cn
办公室:南京航空航天大学将军路校区电子信息工程学院楼434室
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相关链接
Google Scholar: https://scholar.google.com/citations?user=u7MizUMAAAAJ&hl=zh-CN
课题组主页: http://www.nuaa-meta.cn/
长期合作学者:
罗宇 (南京航空航天大学);张柏乐 (新加坡南洋理工大学);王岐杰 (新加坡南洋理工大学);Francisco J. Garcia-Vidal (马德里自治大学);Ido Kaminer (以色列理工大学);林晓 (浙江大学);杨怡豪 (浙江大学); 李茁 (南京航空航天大学); 刘亮亮 (南京航空航天大学); 高东梁 (苏州大学); 侯松岩 (西安电子科技大学); 熊江(中国电子科技大学); 龙洋 (同济大学)
(国际联合实验室成员合影--摄于2025年3月17日南京航空航天大学电子信息工程学院)
Selected Publications
† co-first author, *corresponding author
[15] Yukun Yang†, Hao Hu†,*, Liangliang Liu†, Yihao Yang, Youxiu Yu, Yang Long, Xuezhi Zheng, Yu Luo*, Zhuo Li*, and Francisco J. Garcia-Vidal, “Topologically protected edge states in time photonic crystals with chiral symmetry,” ACS Photonics 12(5), 2389-2396 (2025). [期刊封面;两江科技、非线性光学快车等报道]
[14] Youxiu Yu, Dongliang Gao*, Yukun Yang, Liangliang Liu, Zhuo Li, Qianru Yang, Haotian Wu, Linyang Zou, Xiao Lin, Jiang Xiong, Songyan Hou, Lei Gao*, and Hao Hu*, “Generalized coherent wave control at dynamic interfaces,” Laser & Photonics Reviews 19(4), 2400399 (2025). [两江科技等报道]
[13] Hao Hu*, Xiao Lin, Guangwei Hu, Francisco J. Garcia-Vidal, and Yu Luo*, “Enhanced Cherenkov radiation in twisted hyperbolic Van der Waals crystals,” InfoScience 2(1), e12424 (2025).
[12] Yaoran Zhang†, Hao Hu†, F. J. García-Vidal, Jingjing Zhang, Liangliang Liu*, Yu Luo*, and Zhuo Li*, “Reconfigurable exceptional point-based sensing with 0.001-lambda sensitivity using spoof localized surface plasmons,” Advanced Photonics Nexus 3(5), 056004 (2024). [SPIE News、Phys.org、EurekAlert!、Statnano等报道]
[11] Youxiu Yu, Hao Hu*, Linyang Zou, Qianru Yang, Xiao Lin, Zhuo Li, Gao Lei*, and Dongliang Gao*, “Antireflection spatiotemporal metamaterials,” Laser & Photonics Reviews 17(9), 2300130 (2023) . [期刊封底;两江科技等报道]
[10] Haotian Wu†, Hao Hu†, Xixi Wang, Zhixia Xu, Baile Zhang*, Qi Jie Wang*, Yuanjin Zheng, Jingjing Zhang, Tie Jun Cui*, and Yu Luo*, “Higher‐order Topological States in Thermal Diffusion,” Advanced Materials 35(14), 2210825(2023). [化学与材料科学等报道]
[9] Yuval Adiv†, Hao Hu†, Shai Tsesses†, Raphael Dahan, Kangpeng Wang, Yaniv Kurman, Alexey Gorlach, Hongsheng Chen, Xiao Lin, Guy Bartal, and Ido Kaminer*, “Observation of 2D Cherenkov radiation,” Physical Review X 13(1), 011002 (2023). [两江科技等报道]
[8] Hao Hu†, Song Han†, Yang Hang†,*, Dongjue Liu, Haoran Xue, Guigeng Liu, Zheyu Cheng, Qi Jie Wang, Shuang Zhang, Baile Zhang*, and Yu Luo*, “Observation of topological edge states in thermal diffusion,” Advanced Materials 34(31), 2202257 (2022). [化学与材料科学等报道]
[7] Hao Hu†, Xiao Lin†,*, Dongjue Liu, Hongsheng Chen, Baile Zhang*, and Yu Luo*, “Broadband enhancement of Cherenkov radiation using dispersionless plasmons,” Advanced Science 9(26), 2200538 (2022). [Advanced Science News报道]
[6] Hao Hu†, Xiao Lin†, Liang Jie Wong, Qianru Yang, Dongjue Liu, Baile Zhang*, and Yu Luo*, “Surface Dyakonov-Cherenkov Radiation,” eLight,2,2 (2022). [期刊特色论文;前苏联知名物理学家、迪亚克诺夫表面波发现者和命名者迪亚克诺夫教授以 "From Dyakonov-Cherenkov radiation to Dyakonov surface optics"为题,在《Light: Science & Applications》 撰写News & Views; Phys.org、EureAlert!、中国光学等报道]
[5] Xiao Lin†, Hao Hu†, Sajan Easo, Yi Yang, Yichen Shen, Kezhen Yin, Michele Piero Blago, Ido Kaminer*, Baile Zhang*, Hongsheng Chen, John Joannopoulos, Marin Soljacic, and Yu Luo*, “A Brewster route to Cherenkov detectors,” Nature Communications 12, 5554 (2021).
[4] Hao Hu, Xiao Lin*, Jingjing Zhang, Dongjue Liu, Patrice Genevet, Baile Zhang* and Yu Luo*, “Nonlocality induced Cherenkov threshold,” Laser & Photonics Reviews 14(10),2000149 (2020).
[3] Hao Hu, Dongliang Gao, Xiao Lin, Songyan Hou, Baile Zhang, Qi Jie Wang* and Yuo Luo*, “Directing Cherenkov photons with spatial nonlocality,” Nanophotonics 9(10), 3435-3443 (2020).
[2] Hao Hu, Liangliang Liu*, Xiao Hu, Dongjue Liu, and Dongliang Gao*, “Routing emission with a multi-channel nonreciprocal waveguide,” Photonics Research 7(6), 642-646 (2019).
[1] Hao Hu, Jingjing Zhang, Stefan A Maier, and Yu Luo*, “Enhancing third-harmonic generation with spatial nonlocality,” ACS Photonics 5(2), 592-598 (2018).
Full Publications
2025
[60] Hao Hu, Yihao Yang, Haotian Wu, Youxiu Yu, Yang Long, Baile Zhang*, and Yu Luo*, “Breakdown of bulk-edge correspondence in topological spacetime photonic crystals,” (2025). [under review]
[59] Zhixiong Xie, Xiao Lin, Song Zhu, Chunyu Huang, Yu Luo*, and Hao Hu*, “Transverse-electric Cherenkov Radiation for TeV-Scale Particle Detection,” (2025). [under review]
[58] Yukun Yang†, Hao Hu†,*, Liangliang Liu†, Yihao Yang, Youxiu Yu, Yang Long, Xuezhi Zheng, Yu Luo*, Zhuo Li*, and Francisco J. Garcia-Vidal, “Topologically protected edge states in time photonic crystals with chiral symmetry,” ACS Photonics 12(5), 2389-2396 (2025).
[57] Youxiu Yu, Dongliang Gao*, Yukun Yang, Liangliang Liu, Zhuo Li, Qianru Yang, Haotian Wu, Linyang Zou, Xiao Lin, Jiang Xiong, Songyan Hou, Lei Gao*, and Hao Hu*, “Generalized coherent wave control at dynamic interfaces,” Laser & Photonics Reviews 19(4), 2400399 (2025).
[56] Hao Hu*, Xiao Lin, Guangwei Hu, Francisco J. Garcia-Vidal, and Yu Luo*, “Enhanced Cherenkov radiation in twisted hyperbolic Van der Waals crystals,” InfoScience 2(1), e12424 (2025).
[55] Junkai Jiang†, Hao Hu†,*, Yang Long, Liangliang Liu, Songyan Hou, Dongjue Liu* and Zhuo Li*, “Broadband temporal localization and delocalized temporal edge states in time photonic crystal,” (2025). [under review]
[54] Dongjue Liu, Zeng Yang, Zhiyong Huang, Xinyi He, Songyan Hou, Biao Wang, Liangliang Liu, Song Zhu, Yi Liao*, and Hao Hu*, “Topological Edge States Induced by Strained Graphene,” (2025). [under review]
[53] Hongyi Li*, Haobin Hu, Zixiang Zhou, Jindi Huang, Fubeng Wang, Hao Hu*, Zhuo Li*, and Liangliang Liu*, “Highly compact and robust filters enabled by effective localized surface plasmonic resonance,” Journal of Physics D: Applied Physics 58(18), 185106 (2025).
[52] Haotian Wu†, Linyang Zou†, Hao Hu, Qianru Yang, Yueqian Zhang, Tie Jun Cui*, Guangwei Hu*, and Yu Luo*, “Electromagnetic Wave Trapping at the Discretized Interluminal Interface,” (2025). [under review]
[51] Song Zhu†, Xuan Mao†, Congliao Yan†, Fakun Wang, Zhen Xu, Hao Hu, Xiaodong Xu, Yuqiang Fang, Fangyuan Sun, Ruihuan Duan, Yao Wu, Yuhui Yang, Chongwu Wang, Zhen Qiao, Wenduo Chen, Sha Wang, Houkun Liang, Fuqiang Huang, Zheng Liu, Yu Luo*, and Qi Jie Wang*, “Broadband and efficient multiphoton nonlinear frequency upconversion with NbOI2 crystals from the mid-infrared to the ultraviolet regimes,” (2025). [under review]
[50] Siming Li†, Haotian Wu†, Jingjing Zhang, Rimi Banerjee, Linyang Zou, Yueqian Zhang, Hao Hu, Yidong Chong*, Qi Jie Wang*, and Yu Luo*, “Topological thermal crystalline insulators,” (2025). [under review]
[49] Yaoran Zhang, Yuxiang Cao, Hao Hu, Liangliang Liu, Yu Luo, and Zhuo Li*, “Reconfigurable exceptional points for enhanced sensitivity in a high-Q toroidal spoof localized surface plasmonic resonator” (2025). [under review]
[48] Yaoran Zhang, Jian Ling, Yuying Jiang, Zhepeng Fu, Hao Hu, Liangliang Liu*, Yu Luo*, and Zhuo Li*, “A compact reconfigurable orbital angular momentum antenna based on a single spoof localized surface plasmonic resonator,” IEEE Transactions on Antennas and Propagation 73(8), 5132-5141 (2025).
[47] Linyang Zou, Hao Hu, Haotian Wu, Yang Long, Yidong Chong, Baile Zhang*, and Yu Luo*, “Momentum flatband and superluminal propagation in a photonic time Moir´e superlattice,” (2025). [under review]
[46] Qianru Yang, Haotian Wu, Hao Hu, Linyang Zou, F. J. García-Vidal, Guangwei Hu*, and Yu Luo*, “Spatiotemporal superfocusing,” Laser & Photonics Reviews 2500126 (2025).
[45] Hongyi Li, Lingyun Niu, Liangliang Liu*, Lepeng Zhang, Hao Hu, Haochi Zhang, Yu Luo, and Zhuo Li*, “Miniaturized diplexer with high selectivity based on transition-free effective surface plasmon polaritons,” IEEE Microwave and Wireless Technology Letters (2025).
[44] Songyan Hou, Hao Hu, Mengfang Xu, Jiajun Zhang, Haoxuan Xiao, Zhihong Liu, Weichuan Xing, Xianhe Liu, Shuzhen You*, Baiquan Liu*, Yiping Zhang, Junhong Yu*, Zhenwei Xie, Xiaoning He, Jincheng Zhang*, and Yue Hao, “Engineering quantum emitters in 2D materials,” Advanced Optical Materials 13(24), 2500693 (2025).
[43] Hongyi Li, Ling Jian, Liangliang Liu*, Lingyun Niu, Lepeng Zhang, Jindi Huang, Haochi Zhang, Dongjue Liu, Hao Hu, Yu Luo*, and Zhuo Li*, “Ultra-wideband and minituarized waveguide band-pass filter based on effective surface plasmon polaritons,” Physical Review Applied 23, 034061 (2025).
[42] Songyan Hou*, Zhenwei Xie, Chengyi Zhu, Haoxuan Xiao, Jiajun Zhang, Mengfang Xu, Xianhe Liu, Xiaoning He, Hao Hu, Zhihong Liu, Weichuan Xing, Jincheng Zhang*, Shuzhen You*, and Yue Hao, “Improved selectivity in dry etching of lithium niobate with thermal annealed hydrogen silsesquioxane mask,” (2025). [under review]
[41] Haonan Hou, Jiarui Wang, Yuhao Liao, Longji Duan, Hao Hu, and Jiang Xiong*, “Full-band wave antireflection based on temporal taper metamaterials,” (2025). [under review]
[40] Hongliang Li, Chenxi Wang, Yan Cai, Tianxiang Zhao, Song Gao, Wenjing Yue, Junge Liang, Xiaofeng Gu, Hao Hu, Yu Luo, Xuechao Yu* and Fei Ding*, “Meta-device-enabled photonic chip integration from the perspective of methods, applications, and fabrications: a review,” (2025). [under review]
2024
[39] Songyan Hou*, Hao Hu*, Zhihong Liu, Weichuan Xing, and Jincheng Zhang*, “Broadband transmissive polarization rotator by gradiently-twisted α-MoO3,” Applied Physics Letters 124(11), 111107 (2024).
[38] Xinhua Li, Liangliang Liu*, Yaoran Zhang, Yue Feng, Guodong Han, Helin Yang, Hao Hu*, Yu Luo, and Zhuo Li*, “Hybridization of localized spoof plasmonic skyrmions and its application in micro-displacement sensing,” Advanced Optical Materials 12(13), 2302744 (2024).
[37] Yaoran Zhang†, Hao Hu†, F. J. García-Vidal, Jingjing Zhang, Liangliang Liu*, Yu Luo*, and Zhuo Li*, “Reconfigurable exceptional point-based sensing with 0.001-lambda sensitivity using spoof localized surface plasmons,” Advanced Photonics Nexus 3(5), 056004 (2024).
[36] Songyan Hou†,*, Hao Hu†, Zhihong Liu, Weichuan Xing, Jincheng Zhang*, and Yue Hao, “Tunable double notch filter on thin-film lithium niobate platform,” Optics Letters 61(6), 1022-1024 (2024).
[35] Songyan Hou*, Hao Hu, Zhihong Liu, Weichuan Xing, Jincheng Zhang*, and Yue Hao, “High-speed electro-optic modulators based on thin-film lithium niobate,” Nanomaterials 14(10), 867 (2024).
[34] Yang Long∗, Linyang Zou, Letian Yu, Hao Hu, Jiang Xiong, and Baile Zhang∗, “Inverse design of photonic topological time crystal via deep learning,” Optical Materials Express 14(8), 2032-2039 (2024).
[33] Haotian Wu, Qianru Yang, Hao Hu, Linyang Zou, Xixi Wang, Jijun He, Shilong Pan, Yuanjin Zheng* Tie Jun Cui*, and Yu Luo*, “Conformal spatiotemporal modulation enabled geometric frequency combs,” ACS Photonics 11(8), 2992–3002 (2024).
[32] Chan Wang, Xuhuinan Chen, Zheng Gong, Ruoxi Chen, Hao Hu, Huaping Wang*, Yi Yang, Low Tony, Baile Zhang, Hongsheng Chen, and Xiao Lin*, “Superscattering of light: fundamentals and applications,” Reports on Progress in Physics 87, 126401 (2024).
[31] Yuhan Zhong, Chan Wang, Chenxu Bian, Xuhuinan Chen, Jialin Chen, Xingjian Zhu, Hao Hu, Tony Low, Siyuan Dai, Hongsheng Chen*, Baile Zhang, and Xiao Lin*, “Near-field directionality governed by asymmetric dipole–matter interactions,” Optics Letters 49(4), 826-829 (2024).
2023
[30] Youxiu Yu, Hao Hu*, Linyang Zou, Qianru Yang, Xiao Lin, Zhuo Li, Gao Lei*, and Dongliang Gao*,“Antireflection spatiotemporal metamaterials,” Laser & Photonics Reviews 17(9), 2300130 (2023).
[29] Haotian Wu†, Hao Hu†, Xixi Wang, Zhixia Xu, Baile Zhang*, Qi Jie Wang*, Yuanjin Zheng, Jingjing Zhang, Tie Jun Cui*, and Yu Luo*, “Higher‐order Topological States in Thermal Diffusion,” Advanced Materials 35(14), 2210825 (2023).
[28] Yuval Adiv†, Hao Hu†, Shai Tsesses†, Raphael Dahan, Kangpeng Wang, Yaniv Kurman, Alexey Gorlach, Hongsheng Chen, Xiao Lin, Guy Bartal, and Ido Kaminer*, “Observation of 2D Cherenkov radiation,” Physical Review X 13, 011002 (2023).
[27] Dongjue Liu, Hao Hu*, and Jingjing Zhang*, “Edge states in coupled non-Hermitian resonators,” Optics Letters 127(11), 043904(2023).
[26] Songyan Hou*, Hao Hu†, Weichuan Xing, Zhihong Liu, Jincheng Zhang*, and Yue Hao, “Improving linewidth and extinction ratio performances of lithium niobate ring modulator using ring-pair structure,” Advanced Photonics Research 4(8), 2300169 (2023).
[25] Dongjue Liu†, Zihao Wang†, Zheyu Cheng, Hao Hu, Qijie Wang, Haoran Xue*, Baile Zhang*, and Yu Luo*, “Simultaneous manipulation of line‐gap and point‐gap topologies in non‐hermitian lattices,” Laser & Photonics Reviews 17(8), 2200371 (2023).
[24] Zheng Gong, JIalin Chen, Ruoxi Chen, Xingjian Zhu, Chan Wang, Xinyan Zhang, Hao Hu, Yi Yang, Baile Zhang*, Hongsheng Chen*, Ido Kaminer, and Xiao Lin*, “Interfacial Cherenkov radiation with ultralow-energy electrons,” Proceedings of the National Academy of Science 120(38), e2306601120 (2023).
[23] Shuaijie Yuan, Xinxing Zhou*, Yu Chen, Yuhan Zhong, Lijuan Sheng, Hao Hu, Hongsheng Chen*, Ido Kaminer, and Xiao Lin*, “Breakdown of effective-medium theory by a photonic spin Hall effect,” Science China Physics, Mechanics & Astronomy 66, 114212 (2023).
[22] Jialin Chen, Ruoxi Chen, Zheng Gong, Hao Hu, Yi Yang, Xinyan Zhang, Chan Wang, Ido Kaminer, Hongsheng Chen*, Baile Zhang*, and Xiao Lin*, “Low-velocity-favored transition radiation,” Physical Review Letters 131, 113002 (2023).
2022
[21] Hao Hu†, Song Han†, Yang Hang†,*, Dongjue Liu, Haoran Xue, Guigeng Liu, Zheyu Cheng, Qi Jie Wang, Shuang Zhang, Baile Zhang*, and Yu Luo*, “Observation of topological edge states in thermal diffusion,” Advanced Materials 34(31), 2202257 (2022).
[20] Hao Hu†, Xiao Lin†,*, Dongjue Liu, Hongsheng Chen, Baile Zhang*, and Yu Luo*, “Broadband enhancement of Cherenkov radiation using dispersionless plasmons,” Advanced Science 9(26), 2200538 (2022).
[19] Hao Hu†, Xiao Lin†, Liang Jie Wong, Qianru Yang, Dongjue Liu, Baile Zhang*, and Yu Luo*, “Surface Dyakonov-Cherenkov radiation,” eLight 2, 2 (2022).
[18] Helin Yang, Kwok-Yan Lam*, Liang Xiao, Zehui Xiong, Hao Hu, Dusit Niyato, and H Vincent Poor,“Lead federated neuromorphic learning for wireless edge artificial intelligence,” Nature Communications 13, 4269 (2022).
[17] Qianru Yang, Hao Hu, Xiaofeng Li, and Yu Luo*,“Cascaded parametric amplification based on spatiotemporal modulations,” Photonics Research 11(5), B125-B135 (2022).
[16] Fei Yan, Qi Li, Hao Hu, Ze Wen Wang, Hao Tian, Li Li*, Yu Luo*, Qi Jie Wang*, “Terahertz high-Q magnetic dipole resonance induced by coherent Fano interactions,” Applied Physics Letters 121(20), 201704 (2022).
2021
[15] Xiao Lin†, Hao Hu†, Sajan Easo, Yi Yang, Yichen Shen, Kezhen Yin, Michele Piero Blago, Ido Kaminer*, Baile Zhang*, Hongsheng Chen, John Joannopoulos, Marin Soljacic, and Yu Luo*, “A Brewster route to Cherenkov detectors,” Nature Communications 12, 5554 (2021).
[14] Hao Hu, Xiao Lin, and Yu Luo*. “Free-electron radiation engineering via structured environment,” Progress in Electromagnetics Research 171, 75-88 (2021).
[13] Liqiao Jing, Xiao Lin, Zuojia Wang*, Ido Kaminer*, Hao Hu, Erping Li, Yongmin Liu, Min Chen, Baile Zhang, Hongsheng Chen*, “Polarization shaping of free‐electron radiation by gradient bianisotropic metasurfaces,” Laser & Photonics Reviews 15(4), 2000426 (2021).
2020
[12] Hao Hu, Xiao Lin*, Jingjing Zhang, Dongjue Liu, Patrice Genevet, Baile Zhang* and Yu Luo*,“Nonlocality induced Cherenkov threshold,” Laser & Photonics Reviews 14(10),2000149 (2020).
[11] Hao Hu, Dongliang Gao, Xiao Lin, Songyan Hou, Baile Zhang, Qi Jie Wang* and Yuo Luo*, “Directing Cherenkov photons with spatial nonlocality,” Nanophotonics 9(10), 3435-3443 (2020).
[10] Xinyan Zhang, Hao Hu, Xiao Lin*, Lian Shen, Baile Zhang, Hongsheng Chen*, “Confined transverse-electric graphene plasmons in negative refractive-index systems, " npj 2D Materials and Applications 4, 25 (2020).
[9] Yanqiu Wang, Hao Hu, Qin Zhang, Dong Liang Gao*, and Lei Gao*, “Topologically-tuned spin Hall shift around Fano resonance,” Optics Express 28(15), 21641-21649 (2020).
[8] Chan Wang, Chao Qian, Hao Hu, Lian Shen, Zuo Jia Wang, Huaping Wang, Zhiwei Xu, Baile Zhang, Hongsheng Chen, Xiao Lin*, “Superscattering of light in refractive-index near-zero environments,” Progress in Electromagnetics Research 168, 15-23 (2020).
2019
[7] Hao Hu, Liangliang Liu*, Xiao Hu, Dongjue Liu, and Dongliang Gao*, “Routing emission with a multi-channel nonreciprocal waveguide,” Photonics Research 7(6), 642-646 (2019).
[6] Hao Hu, Xiao Lin, Dongjue Liu, Patrice Genevet, Baile Zhang, Yu Luo*, “Revisit Cherenkov Radiation in the Hyperbolic Metamaterials,” Photonics & Electromagnetics Research Symposium-Fall (PIERS-Fall) 318-324 (2019).
[5] Wangcheng Lin, Yanqiu Wang, Hao Hu, Dongjue Liu, Dongliang Gao*, and Lei Gao*, “Reconfigurable sensor and nanoantenna by graphene-tuned Fano resonance,” Optics Express 27(24), 35925-35934 (2019).
[4] Dongjue Liu, Yao Huang, Hao Hu, Liangliang Liu, Dongliang Gao, Lixin Ran, Dexin Ye*, and Yu Luo*, “Designing spatial Kramers–Kronig media using transformation optics,” IEEE Transactions on Antennas and Propagation 68(4), 2945-2949 (2019).
[3] Ran Shi, Dong Liang Gao*, Hao Hu, Yanqiu Wang, Lei Gao*, “Enhanced broadband spin Hall effects by core-shell nanoparticles,” Optics Express 27(4), 4808-4817 (2019).
2016-2018
[2] Hao Hu, Jingjing Zhang, Stefan A Maier, and Yu Luo*, “Enhancing third-harmonic generation with spatial nonlocality,” ACS Photonics 5(2), 592-598 (2018).
[1] Jinxi Huang†, Hao Hu†, Zhewei Wang, Wenyuan Li, Ji Cang, Jianqi Shen, Hui Ye*, “Analysis of light-emission enhancement of low-efficiency quantum dots by plasmonic nano-particle,” Optics Express 24(8), 8555-8573 (2016).
Conference Papers
[14] Hao Hu, “Topological time photonic crystals,” International Applied Computational Electromagnetics Society Symposium, Huangshan, China, 8-11 August 2025 (Invited Talk).
[13] 胡昊, “拓扑时变光子晶体,” 第4届全国超材料大会, 深圳, 中国, 2025年5月15日-18日(特邀报告).
[12] 胡昊, “自由电子辐射的超构材料调控机理及应用,” 第39届南京地区研究生通信年会, 南京, 中国, 2024年12月24日 (特邀报告).
[11] Hao Hu, “Time edge states protected by chiral symmetry,” International Conference on Metamaterials, Photonic Crystals and Plasmonics, Toyama, Japan, 16-19 July 2024.
[10] Hao Hu, “Cherenkov radiation in twisted α-MoO3 Slab,” Progress in Electromagnetics Research Symposium, Chengdu, China, 21-25 April 2024.
[9] Hao Hu, “Free-electron light source based on twisted α-MoO3 slab,” IEEE International Conference on Computational Electromagnetics, Nanjing, China, 15-17 April 2024.
[8] Hao Hu, “Experimental realization of topological edge states in pure diffusion systems,” Progress in Electromagnetics Research Symposium, Prague, Czech Republic, 3-6 July 2023.
[7] Hao Hu, “Experimental realization of thermal topological edge states,” International Conference on Thermodynamics and Thermal Metamaterials, Shanghai, China. 17-19 August 2022.
[6] Hao Hu, “Revisit Cherenkov radiation in the hyperbolic metamaterials,” Progress in Electromagnetics Research Symposium, Xiamen, China, 17-20 December 2019.
[5] Hao Hu, Xiao Lin, Dongjue Liu, Patrice Genevet, Baile Zhang, and Yu Luo, “Probe the ultimate nonlocal limit of 'threshold-free' Cherenkov radiation,” Conference on Lasers and Electro-Optics, San Jose, USA, 5-10 May 2019.
[4] Hao Hu, “Nonlocal limit of Cherenkov radiation in hyperbolic metamaterials,” Global Congress and Expo on advancements of Laser optics and photonics, Valencia, Spain, 25-27 March 2019.
[3] Hao Hu, “Enhancing optical nonlinearity using quantum nonlocal effect,” Progress in Electromagnetics Research Symposium, Tokyo, Japan, 1-4 August 2018.
[2] Hao Hu, “Enhancing optical nonlinearity using special nonlocality,” Advances in Quantum Enginnering International Meeting, Singapore, 25-27 June 2018.
[1] Hao Hu, and Yu Luo, “Third harmonic generation enhanced by nonlocal effect,” Conference on Lasers and Electro-Optics (Pacific Rim), Singapore, 31 July - 4 August 2017.
Patents
[2] 高雷,余尤秀,胡昊,高栋梁, “一种基于时空减反膜及抗反射系统,” 国家发明专利, 专利号:ZL202310321458.6, 专利申请日: 2023.03.29, 授权公告日: 2025.02.07.
[1] 高雷,余尤秀,胡昊,高栋梁, “一种基于时空相干波调控的波形调制方法,” 国家发明专利, 专利号:ZL202410019512.6, 专利申请日: 2024.01.05, 授权公告日: 2024.08.20.
Thesis
[1] Hao Hu, ''Manipulating Cherenkov radiation by artificial structures'' [Doctoral dissertation, Nanyang Technological University], Digital Repository of Nanyang Technological University, 2020.
教育经历
2016.7 - 2020.6 新加坡南洋理工大学 | 博士研究生毕业
2012.9 - 2016.6 浙江大学 | 大学本科毕业
2009.9 - 2012.6 宁波市镇海中学 | 普通高中毕业
工作经历
2024.12 - 2024.12 南京航空航天大学 | 电子信息工程学院 | 在职 | 长聘教授
2023.4 - 2024.12 南京航空航天大学 | 电子信息工程学院 | 特聘研究员A类
2020.8 - 2023.3 新加坡南洋理工大学 | 电气与电子工程学院 | 博士后
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