个人信息

姓  名: 章海锋 性  別: 导师类型: 硕士生导师
技术职称: 教授 电子邮箱: hanlor@163.com
学术型硕士招生学科: (080904)电磁场与微波技术
专业型硕士招生类别(领域): (085400)电子信息
photo

个人简介:

 最新个人介绍及课题组详情请用微信扫描照片中的二维码了解,微信公众号:不可能完成的Mission,微信号:gh_a47e0f1a0242。以下是简要说明:


章海锋,江西南昌人。2014年12月毕业于南京航空航天大学电子与信息工程学院,获得通信与信息系统专业的博士学位。2016年12月调入南京邮电大学电子与光学工程学院从事教学科研工作,并聘为“校长专聘教授”。2018年4月晋升为教授。作为负责人,近年来主持国家自然科学基金青年基金项目、中国博士特优资助项目、中国博士后面上项目、江苏省博士后面上项目、东南大学毫米波国家重点实验室项目、南航教育部重点实验室开放项目、南邮信息电子技术国家级虚拟仿真实验教学中心项目、南邮高层次人才引进项目等8个项目,并且作为主要成员参与国家自然科学基金面上项目、青年基金项目和省部级以上项目多项。现领导一个科研小组,代号“mission is impossible” ( 完成不可能完成的任务 ),目的在于极限困难条件下完成科研任务。2011年至今,一共在国内外期刊杂志上发表论文140余篇,以第一作者或者通信作者在SCI/EI检索期刊上发表90余篇,最大影响因子超过4.0,第一作者发表的SCI/EI论文已经累计被他引310余次。学术论文发表在《Optics Express》、《Advanced Optical Materials》、《Advanced Materials Technologies》、《Annalen der Physik》、《IEEE Journal of Selected Topics in Quantum Electronics》、《Optics Letters》、《 IEEE Sensors Journal》、《IEEE Access》、《Annals of Physics》、《Journal applied physics:D》、 《IEEE Journal of Lightwave Technology》、 《IEEE Photonics Journal》、《Physics of Plasma》、《IEEE Transactions on Plasma Science》、《IEEE Journal of Quantum Electronics》、 《Journal of Applied Physics》、《Applied Physics Letter》等国际知名刊物上;是美国物理联合会(AIP)、美国光学协会(OSA)、英国物理学会(IOP)、电气和电子工程师协会(IEEE)、Elsevier 综合类学术期刊的活跃作者。并于他人合作出版专著《等离子体光子晶体理论》1本,排名第二。2020年,将出版专著《周期性等离子体介质结构的电磁特性及应用研究》,(章海锋,文永刁,哈尔滨工业大学出版社,)该书列入“十三五”国家重点图书出版规划项目《航天先进技术研究与应用系列》

(国之重器出版工程)

,并入选2017年度国家出版基金资助项目《航天先进技术研究与应用系列》。并已经申请专利数十项,授权6项。 在学术兼职方面在学术兼职方面,长期担任应用电磁学、光学、等离子体技术等领域重要国际SCI 期刊论文审稿人,主要包括《IEEE Transaction on Microwave Theory and Techniques》、《IEEE Photonics Technology Letters 》、《Physics of Plasma》、《IEEE Transactions on Plasma Science》、《Journal of Applied Physics》、《IEEE Journal of Lightwave Technology》、《Materials Chemistry and Physics》和《Superlattices and Microstructures》等;还是《Chinese Optics Letters》的特约审稿人。













研究领域:

(1)先进电磁学计算方法的研究,主要包括平面波展开法、时域有限差分方法、频域有限差分方法和传输矩阵法对周期性介质结构的涉及的电磁问题进行计算与分析。 (2)光子晶体理论与应用技术。主要研究光子晶体技术在光路集成技术、功能性器件设计中的一些应用。涵盖:数值计算技术、理论分析和器件设计等几个方面。 (3)等离子体实用技术研究,研究内容主要涉及电磁隐身技术、等离子体产生与测定技术、等离子体算法、等离子体黑障等问题。涵盖:等离子体光子晶体、等离子体在隐身、高超声速飞行器电磁散射和微波等离子体器件设计等问题。 (4)微波器件设计及系统综合,研究内容主要涉及新型材料与超材料的技术相结合的实用微波器件相结合的技术。涵盖:新型天线、吸波器、非互易的器件、反射阵列天线、电磁透镜等相关内容。 (5)统一问题的研究,研究内容主要涉及光、电和声学的本质方程统一性问题,涵盖:光控电器件设计、声光子晶体的研究和光控介质特性等问题。 

       主要成果: 1. 2017-2019指导国家级大学生创新项目5项,其中5项结题为优秀。其中,2015级本科生张浩参与发表SCI/EI检索论文10篇,以第一作者发表SCI检索期刊论文4篇,申请专利9项,授权1项;并被评为“校创新标兵”。2015级本科生马宇保研,以第一作者或通信作者发表SCI检索期刊论文3篇,申请专利9项,授权3项。 2. 2018年指导大学生创新校级一般项目2项。其中,2016级本科生曾立以第一作者发表SCI检索期刊论文6篇,申请专利6项。2016级本科生刘国标、孔心茹、道日娜分别以第一作者发表SCI检索论文1篇,申请专利多项。 3. 2018级研究生田新亮主持“江苏省研究生创新项目”1项,以第一作者发表SCI检索期刊论文2篇。 4,到目前为止,本科生保研4人。欢迎理论物理、应用物理、数学和计算机专业的本科生报考;更欢迎本校的理工科本科生加入我们的团队。欢迎有情怀有抱负的年轻人加入。请记住“只要你相信,你就是传奇。”(硬件要求:需要有个人电脑,内存16GHz及以上,CPU主频越高越好。个人品质要求:有恒心,甘愿无名,有情怀)。 


     最后寄语:我们是一群与魔鬼对话的人,绝望、沮丧、无助、挫败感将伴随我们的一生。既然是从事最为“

危险”的工作,那么我们都要竭尽所能,不负韶华,为国家强盛而努力。混文凭者请离开,贪图享乐者请远去。完成不可能完成的任务,是我们课题组的唯一指南,非诚勿扰。













科研项目:


作为负责人,近年来主持国家自然科学基金青年基金项目、中国博士特优资助项目、中国博士后面上项目、江苏省博士后面上项目、东南大学毫米波国家重点实验室项目、南航教育部重点实验室开放项目、南邮信息电子技术国家级虚拟仿真实验教学中心项目、南邮高层次人才引进项目等8个项目,并且作为主要成员参与国家自然科学基金面上项目、青年基金项目和省部级以上项目多项

代表性学术成果:


尤其最近5年本人领导的科研团队在新型电磁材料理论与器件设计、光电器件设计、光子晶体应用研究、非接触式调控技术研究等方面也取得了一些阶段性的成果,并发表了数十篇高水平期刊论文,相关的代表性论文如下:

[1] Hao Pan,and Hai-Feng Zhang (通讯作者), “Broadband Polarization-Insensitive Coherent Rasorber in Terahertz Metamaterial with Enhanced Anapole Response and Coupled Toroidal Dipole Modes”, Advanced Optical Materials,  2101688, 2022. https://doi.org/10.1002/adom.202101688. (引用24)

[2] Zi-Han Guo, Cheng-Jing Gao, and Hai-Feng Zhang (通讯作者), "Direction-dependent Janus Metasurface supported by waveguide structure with spoof surface plasmon polariton modes," Advanced Materials Technologies, 2200435, 2022. https://doi.org/10.1002/admt.202200435. (引用34)

[3] You-Ran Wu , Rui-Yang Dong and Hai-Feng Zhang (通讯作者), "Virtual Polarizer: Coherent Perfect Ultrawideband Polarization Control of Chiral Electromagnetic Waves," IEEE Transactions on Antennas and Propagation, Volume:72(5), 4370-4382, (2024). (中科院1区,Top 期刊,在该文中本人首次提出了虚拟偏正器的概念).

[4] Fu-Pei Wu and Hai-Feng Zhang (通讯作者), "Unveiling the intricacies of nonlinear third-harmonic generation within a hyperstructure," Physical Review A 110, 023505 (2024).(自然科学指数期刊).

[5] Cheng Yang , Chu-Ming Guo , Jie Xu and Hai-Feng Zhang(通讯作者), "Device Design for Multitask Graphene Electromagnetic Detection Based on Second Harmonic Generation," IEEE Transactions on Microwave Theory and Techniques, Volume:72(7), 4174-4182, (2024). (中科院1区,Top 期刊),  (引用12).

[6] Sun-Yang Sui, Jia-Hao Zou, Si-Yuan Liao, Bing-Xiang Li, and Hai-Feng Zhang (通讯作者), "High sensitivity multiscale and multitasking terahertz Janus sensor based on photonic spin Hall effect," Applied Physics Letters, 122, 231105, (2023). (自然科学指数期刊), (引用25)

[7] Yu-Peng Li, Zhen Qiao, Ke Xia, Lei Zhang and Hai-Feng Zhang (通讯作者), "Electromagnetic Resonance Modification Technique for Optimization of Polarization Conversion Performance in Metastructures," IEEE Transactions on Antennas and Propagation, Volume:71(10),  8097-8110, (2023) . (中科院1区,Top 期刊)

[8] Bao-Fei Wan, Hai-Ning Ye and Hai-Feng Zhang (通讯作者), "Pattern-Free Tunable Angular Propagation Characteristics Based on Edge States and Its Potential in Sensing," IEEE Transactions on Antennas and Propagation, Volume:71(11),  8949-8963, (2023).(中科院1区,Top 期刊)

[9] Qian-Qian Li, and Hai-Feng Zhang (通讯作者), "A High-gain Circularly Polarized Antenna Array Based on a Chiral Metastructure,"  IEEE Transactions on Antennas and Propagation Volume:71(4), 3033-3041, (2023).(中科院1区,Top 期刊)

[10] Rui-Yang Dong, You-Ming Liu, Jun-Yang Sui, and Hai-Feng Zhang (通讯作者), "Band Structure and Temporal Topological Edge State of Continuous Photonic Time Crystals," IEEE Transactions on Antennas and Propagation, Volume:72 (1),  674-682, (2024). (中科院1区,Top 期刊)

[11] Jie Xu, Chu-Ming Guo, Cheng Yang, and Hai-Feng Zhang (通讯作者), "Theoretical Study of a Porous Silicon Cavity Based on Second Harmonic Waves Formed by Ferroelectric Crystals for Wide Range Multiphysical and Chemical Measurement," IEEE Transactions on Instrumentation And Measurement, Volume:73, 8002916, (2024). (中科院2区,Top 期刊)

[12] Chu-Ming Guo, Cheng Yang, Xiang Li, Yu-Xin Wei and Hai-Feng Zhang (通讯作者), "Hyperstructure Realizing the Second Harmonic Generation and Its Application to Multiwindow and Multibiomass Sensing," IEEE Transactions on Instrumentation And Measurement, Volume:73, 7006208, (2024). (中科院2区,Top 期刊)

[13] Cheng Yang, Chu-Ming Guo, Yu-Xin Wei and Hai-Feng Zhang (通讯作者), "Electromagnetic Detection Design in Liquid Crystals Janus Metastructures Based on Second Harmonic Generation," IEEE Transactions on Instrumentation And Measurement, Volume:73, 7007811, (2024). (中科院2区,Top 期刊)

[14] Jun-Yang Sui, Jia-Hao Zou, Si-Yuan Liao, Bao-Fei Wan and Hai-Feng Zhang (通讯作者), "Short-Wave Infrared Janus Metastructure With Multitasking of Wide-Range Pressure Detection and High-Resolution Biosensing Based on Photonic Spin Hall Effect," IEEE Transactions on Instrumentation And Measurement, Volume:73, 7000109, (2024). (中科院2区,Top 期刊)

[15] Li Zeng, Bing-Xiang Li, and Hai-Feng Zhang (通讯作者), "Nonreciprocal Electromagnetically Induced Unidirectional Absorption Based on the Quasi-Periodic Metastructure and Its Application for Permittivity Sensing," IEEE Transactions on Instrumentation and Measurement, 72, 6001412, (2023). (中科院2区,Top 期刊) 

[16] Bao-Fei Wan, Hai-Ning Ye, Yi-Ming Ma, and Hai-Feng Zhang (通讯作者),  "Narrow-angle privacy protection based on anomalous propagation characteristics at epsilon-near-zero threshold frequency of YaBa2Cu3O7 ceramic material," Ceramics International 50,  9089–9095 (2024). (中科院1区,Top 期刊) 

[17] Bao-Fei Wan , Hai-Ning Ye, and Hai-Feng Zhang (通讯作者), "Multi-channel angular selective window based on the epsilon-near-zero features of YaBa2Cu3O7 material and photonic crystals ceramic structure of extremely small dispersion edge regions," Ceramics International 49,  34814–34825 (2023). (中科院1区,Top 期刊)

[18] Hai-Ning Ye , Bao-Fei Wan , Han-Qing Dong, and Hai-Feng Zhang (通讯作者), "The implementation of dual-band electromagnetically induced transparency metastructure based on micro-strip line structure and Calcium-magnesium-titanium ceramic," Ceramics International 49,  29755–29767 (2023). (中科院1Top 期刊)

[19] Jia-Hao Zou, Jun-Yang Sui, Qi Chen, and Hai-Feng Zhang (通讯作者), "Arithmetic logic unit based on the metastructure with coherent absorption : erratum," Opt. Lett. 49, (3), 415-417, (2024).

[20] Zhao Tang, Si-Ying Li, Jie Xu, and Hai-Feng Zhang (通讯作者), "Tunable Janus absorptive frequency-selective reflector with octave frequency absorption," Opt. Lett. 48, (16), 4416-4419, (2023).

[21] Rui-Yang Dong, Shuo Wang, Jia-Hao Zou, and Hai-Feng Zhang (通讯作者), "Tunable and controllable multi-channel time-comb absorber based on continuous photonic time crystals," Opt. Lett. 48, 2627-2630, (2023).

[22] Jun-Yang Sui, Si-yuan Liao, Bing-Xiang Li, and Hai-Feng Zhang (通讯作者), "High sensitivity multitasking non-reciprocity sensor using the photonic spin Hall effect," Opt. Lett. 47, 6065-6068, (2022). (引用62) 

[23] Bao-Fei Wan, Hai-Feng Zhang (通讯作者), and Peng-Xiang Wang, "Nonreciprocal absorber with a narrow band of angular polarization sensitive regions based on a quasi-periodic structure," Opt. Lett. Vol.46, 1934-1937 (2021). (引用26)

[24] Hao Pan, Hai-Feng Zhang (通讯作者), Xingliang Tian, and Dan Zhang, "Broadband terahertz absorber with gradient ring resonators based on a discrete spiral topological distribution," Journal of the Optical Society of America B, Vol.38, no.3, 850-857 (2021). (被美国光学协会(OPTICA)评为2021年度“Spotlight on Optics”论文).

[25] Zhen Qiao, Ru-Jia Cao, Si-Yuan Liao, and Hai-Feng Zhang (通讯作者), "Multifunctional and tunable ultra-broadband linear to circle polarization converter based on VO2-integrated material," Journal of the Optical Society of America B, Vol.40, no.10, 388-397  (2023).(被美国光学协会(OPTICA)评为2023年度“Spotlight on Optics”论文). (引用13)

[26] Jun-Qi Yao, Di Gui, Dan Zhang, and  Hai-Feng Zhang (通讯作者), "Ultra-broadband origami absorber with large angle stability in the THz region," Journal of the Optical Society of America B, Vol.39, no.10, 2603-2609 (2022).(被美国光学协会(OPTICA)评为2022年度“Spotlight on Optics”论文).

[27] Si-Jia Guo, Cai-Xing Hu, Hai-Feng Zhang (通讯作者). Unidirectional ultra-broadband and wide-angle absorption in the graphene-embed photonic crystals with the cascading structure comprising the Octonacci sequence. Journal of the Optical Society of America B, vol. 37(9), no. 9, pp. 2678-2687, 2020. (被美国光学协会(OPTICA)评为2020年度“Spotlight on Optics”论文;该论文被SCI期刊JOSA B评选为2020年以来15篇高被引论文之一;引用135次,Top1%).

[28] Jun-Yang Sui,  Si-Yuan Liao, Rui-Yang Dong, and  Hai-Feng Zhang (通讯作者), “A Janus Logic Gate with Sensing Function”. Annalen der Physik, pp.2200661, 2023.   https://doi.org/10.1002/andp.202200661.(该论文为2023年高被引论文,Top1%). (引用32) 

[29] Si-Yuan Liao, Jun-Yang Sui, and Hai-Feng Zhang (通讯作者), , "Switchable ultra-broadband absorption and polarization conversion metastructure controlled by light," Optics Express 3019, 34172-34187 (2022). (该论文为2023年高被引论文,引用54次,Top1%). 

[30]  Jia Qu, Hao Pan,Yuan-Zhe Sun and Hai-Feng Zhang (通讯作者), Multitasking Device Regulated by the Gravity Field: Broadband Anapole-Excited Absorber and Linear Polarization Converter.  Annalen der Physik, pp.2200175, 2022. (20229月期刊封面论文,该成果被《Wiley Advanced Science News》微信平台报道), (引用73)

[31] Tian-Qi Zhu, You-Ming Liu, Jia-Tao Zhang, and Hai-Feng Zhang (通讯作者), The Absorption Properties of One-Dimensional Spherical Photonic Crystals Based on Magnetized Ferrite Materials.  Annalen der Physik, pp.2200370, 2023. (20232月期刊封面论文,该成果被《Wiley Advanced Science News》微信平台报道)

[32] Yu Ma, Mingyu Mao, and Hai-Feng Zhang (通讯作者), "Nonreciprocal absorption and omnidirectional band gap in the biaxial hyperbolic metamaterials with black phosphorus ," Journal of Physics D: Applied Physics, Vol.54, 345103 (2021). (编辑特邀论文, Invited paper)

[33] Yu Ma, Yi Xu and Hai-Feng Zhang (通讯作者), “The tailored saturated-unsaturateddefect modes obtained by nonlinear threshold light in graphene-based hyperbolicmetamaterial”,  IEEE Journal of Selected Topics in Quantum Electronics, vol.29, no.1, 5100107, 2023.

[34] Si-Si RaoYang ZhouBao-Fei Wanand Hai-Feng Zhang (通讯作者), "Tunable Polarization Encoder Capable of Polarization Conversion and Separation Based on a Layered Photonic Structure," IEEE Journal of Selected Topics in Quantum Electronics, 29, 5100808, 2023. (引用12)

[35] Bao-Fei Wan, Hai-Ning Ye, Dan Zhang and Hai-Feng Zhang (通讯作者), A variable refractive index sensor based on epsilon-near-zero spatial selection structure and its potential in biological detection New Journal of Physics Vol.25, 023003, 2023. (引用14)

[36] Hao Zhang , and Hai-Feng Zhang (通讯作者), "Ultra-broadband coherent perfect absorption via elements with linear phase response," Optics Express 3021, 37350-37363, 2022.

[37] Yupeng Li, Li Zeng, and Hai-Feng Zhang (通讯作者),  Dan Zhang, Ke Xia, and Lei Zhang, "Multifunctional and tunable metastructure based on VO2 for polarization conversion and absorption," Optics Express 3019, 34586-34600, 2022. (引用31)

[38] Hao Pan, and Hai-Feng Zhang (通讯作者), "Thermally tunable polarization-insensitive ultra-broadband terahertz metamaterial absorber based on the coupled toroidal dipole modes," Optics Express 2912, 18081-18094 (2021).(引用11)

[39] Yu Ma, Tao Zhang, MingYu Mao, Dan Zhang, and Hai-Feng Zhang (通讯作者), "Switchable multifunctional modulator realized by the stacked graphene-based hyperbolic metamaterial unit cells," Optics Express 28, 39890-39903 (2020). (引用13)

[40] Li Zeng, and Hai-Feng Zhang (通讯作者), Design of Broadband Plasmon-Induced Transparency Hybrid Metamaterial Based on the Interaction of the Metal and Dielectric Resonances.  Annalen der Physik, pp.2100462, 2021. (该成果被《Wiley Advanced Science News》微信平台报道).

[41] Si-Yuan Liao; Zhen Qiao; Jun-Yang Sui; and Hai-Feng Zhang (通讯作者), Multifunctional device for circular to linear polarization conversion and absorption.  Annalen der Physik, 2300195, 2023. (该成果被《Wiley Advanced Science News》微信平台报道, 并评为封面论文), (引用30)

[42] Yu-Peng Li, Ke Xia, Lei Zhang, and Hai-Feng Zhang (通讯作者), Tunable transmissive metastructure for precise or broadband polarization conversion modulation based on graphene. Annalen der Physik, 2200491, 2023.  (该成果被《Wiley Advanced Science News》微信平台报道, 并评为封面论文).

指导的优秀研究生代表:


(1) 2021年指导本科生荣获第十七届挑战杯全国大学生课外学术科技作品(学术论文类)竞赛国家二等奖和江苏省赛区特等奖。

(2) 2023指导本科生荣获第十七届互联网+创新创业大赛,省二等奖。

(3) 2023年指导本科生荣获第十八届挑战杯全国大学生课外学术科技作品(学术论文类)竞赛国家一等奖(南邮首获该荣誉)和江苏省赛区一等奖。第十八届互联网+创新创业大赛,省三等奖。

(4) 2024年指导本科生大学生创新项目,进入全国年会,并进行答辩,评为论文类前200篇优秀论文。

(5) 2018年至今,指导4人次获得江苏省优秀本科生毕业设计一等奖。

(6) 2018年至今,指导3人次获得江苏省本科生优秀团队毕业设计。

(7) 2017年至今,连续7年指导国家级大创项目并优秀结题,连续7年代表南邮参评全国大创年会。

(8) 2020-2023年,指导本科生参加了第1718届江苏省物理竞赛均获一等奖。第1920届江苏省物理竞赛均获二等奖。连续4年被评为优秀导师。

(9) 2022年,指导的本科生万宝飞获评第十二届江苏省最美大学生称号,并荣获第十三届中国青少年科技创新奖(国家级荣誉)。

(10) 2023年,指导研究生1人次获得江苏省优秀硕士论文。

(11) 2021年至今,指导3位研究生分别前往香港城市大学,香港科技大学,香港中文大学等QS排名前100的大学攻读博士学位。

(12) 2021年和2022年指导研究生电子竞赛获得全国三等奖,和华东地区一等奖。

(13) 2023年指导的本科生万宝飞获评获评十大年度人物(国家级荣誉)(打破南邮建校以来的记录)。