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次)
[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次)
[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次).
[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次)
[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1区Top 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次)
[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次)
[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次)
[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次)
[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 30(19), 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. (2022年9月期刊封面论文,该成果被《Wiley Advanced Science News》微信平台报道), (引用73次)
[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. (2023年2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 Rao,Yang Zhou,Bao-Fei Wan,and 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次)
[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次)
[36] Hao Zhang , and Hai-Feng Zhang (通讯作者), "Ultra-broadband coherent perfect absorption via elements with linear phase response," Optics Express 30(21), 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 30(19), 34586-34600, 2022. (引用31次)
[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 29(12), 18081-18094 (2021).(引用11次)
[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次)
[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次)
[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).