个人资料
教育经历2009/08 - 2013/12:新加坡国立大学,物理学,博士(导师:Prof. Jian-Sheng Wang);2005/09 - 2009/06:四川大学,物理学,学士
工作经历2021/12至今,伟德bv1946官网,伟德BETVLCTOR1946,教授;2018/10 - 2021/10:CUNY Advanced Science Research Center,博士后(导师:Prof. Andrea Alù);2014/07 - 2018/09:Wesleyan University,博士后(导师:Prof. Tsampikos Kottos)
个人简介教授,博士生导师,国家“四青”人才,伟德bv1946官网“百青”人才。2013年于新加坡国立大学 (NUS) 获得物理学博士学位,并先后在美国维思大学 (Wesleyan University) Tsampikos Kottos 教授课题组 (2014-2018) 和纽约城市大学先进科学研究中心 (CUNY ASRC) Andrea Alù 教授课题组 (2018-2021) 从事博士后研究。2021年12月加入伟德bv1946官网,任伟德BETVLCTOR1946教授、博士生导师,2022年入选国家级青年人才。长期从事新兴 (Nascent) 光与物质相互作用、非厄米光学、时变光子学、波动物理学及其方法论等方向的理论研究。已发表 SCI 论文50余篇,分布于 Physical Review Letters (12篇,含8篇一作,1篇共一),Optica,Advances in Optics and Photonics,Advanced Photonics 等期刊上,作为第一作者在 Springer Tracks in Modern Physics 撰写宇称时间对称性应用领域专著《Parity-time Symmetry and Its Applications》(edited by D. Christodoulides and J. Yang) 一邀请章节。曾参与美国空军科学研究基金,美国国防部高级研究计划局,美国国家科学基金会和西蒙斯基金会的系列科研项目。现为以色列科学基金会 (ISF) 突破研究基金 (BRG) 外籍评审。
研究方向课题组拟招收光学方向博士后1名,研究方向包括且不限于时变光子学、非厄米光学、近场热辐射等。除却学院提供的标准待遇(请参考学院博后招聘公告),课题组将根据科研经费情况按需提供额外资助。如果你诚实勤奋,擅长模拟,理论过关且年龄在34周岁以下,欢迎随时咨询联系。联系方法:请将个人详细中/英文简历(包括学习、工作和科研经历以及主要科研成果)发送至hli01@nankai.edu.cn, 邮件标题请注明“姓名+博士后申请”。课题组可提供较好的科研想法和具体的指导,以及与国内外知名研究组合作交流的机会。 科研项目: 3. “非厄米光学及其应用”,国家“四青”人才项目,2023.01-2025.12,主持 2. “基于时间边界的经典波调控特性及其应用”,国家自然科学基金面上项目,2023.01-2026.12,主持 1. “时变介质的理论及应用”,引进人才科研启动费,2022.01-2027.12, 主持 研究成果Please visit https://www.researchgate.net/profile/Huanan-Li-2 Journal Publications *corresponding author, #co-first author 2024年 51. S. Zhang#, J. Dong#, H. Li*, J. Xu*, and B. Shapiro*, “Longitudinal optical phonons in photonic time crystals containing a stationary charge,” Phys. Rev. B (Editors' Suggestion, Letter) 110, L100306 (2024). 50. S. Zhang#, H. He#, Z. Chen, J. Qi, H. Li*, and J. Xu*, “Asymmetric vortex generation in a time-switched magneto-optical lorentz medium,” Opt. Mater. Express 14, 2258 (2024). 49. H. He#, Z. Chen#, H. Li*, C.-H. Tu, J. Xu*, and A. Alù*, “Evanescent wave spectral singularities in non-hermitian photonics,” Phys. Rev. B (Letter) 109, L041405 (2024). 2023年 48. X. Jiang#, S. Yin#, H. Li, J. Quan, H. Goh, M. Cotrufo, J. Kullig, J. Wiersig, and A. Alù*, “Coherent control of chaotic optical microcavity with reflectionless scattering modes,” Nat. Phys. 20, 109 (2024). 47. H. Li, S. Yin, H. He, J. Xu*, A. Alù*, B. Shapiro*, “Stational Charge Radiation in Anisotropic Photonic Time Crystals,” Phys. Rev. Lett. 130, 093803 (2023). 46. H. He, S. Zhang, J. Qi, F. Bo, and H. Li*, “Faraday rotation in nonreciprocal photonic time-crystals,”Appl. Phys. Lett. 122, 051703 (2023). (Invited Paper) 2022年 45. H. Li#, S. Yin#, and A. Alù*, “Nonreciprocity and Faraday rotation at time interfaces,” Phys. Rev. Lett. 128, 173901 (2022). 44. Z.-L. Deng*, F.-J. Li, H. Li, X. Li, A. Alù*, “Extreme Diffraction Control in Metafratings Leveraging Bound States in the Continuum and Exceptional Points,” Laser Photonics Rev. 16, 2100617 (2022). 43. E. Galiffi*, R. Tirole, S. Yin, H. Li, S. Vezzoli, P. A. Huidobro, M. G. Silveirinha, R. Sapienza, A. Alù, J. B. Pendry, “Photonics of Time-Varying Media,” Adv. Photon. 4, 014002 (2022). (Invited Review)
2021年 42. H. Li#, S. Yin#, E. Galiffi, and A. Alù*, “Temporal Parity-Time Symmetry for Extreme Energy Transformations,” Phys. Rev. Lett. 127, 153903(2021). 41. L. J. Fernández-Alcázar, H. Li, M. Nafari, and T. Kottos, “Implementation of Optimal Thermal Radiation Pumps Using Adiabatically Modulated Photonic Cavities,” ACS Photonics 8, 2973 (2021). 40. H. Li, A. Mekawy, and A. Alù*, “Gain-Free Parity-Time Symmetry for Evanescent Fields,” Phys. Rev. Lett. 127, 014301 (2021). 39. A. Mekawy, H. Li, Y. Ra’di, and A. Alù*, “Parametric Enhancement of Radiation from Electrically Small Antennas,” Phys. Rev. Appl. 15, 054063 (2021). 38. L. J. Fernández-Alcázar, R. Kononchuk, H. Li, T. Kottos, “Extreme Nonreciprocal Near-Field Thermal Radiation via Floquet Photonics,” Phys. Rev. Lett. 126, 204101 (2021). 37. J. Li, M. Wang, Z. Wu, H. Li, G. Hu, T. Jiang, J. Guo, Y. Liu, K. Yao, Z. Chen, J. Fang, D. Fan, B. A. Korgel, A. Alù and Y. Zheng, “Tunable Chiral Optics in All-Solid-Phase Reconfigurable Dielectric Nanostructures,” Nano Lett. 21, 973 (2021). (Front Cover) 36. H. Li and A. Alù*, “Temporal Switching to Extend the Bandwidth of Thin Absorbers,” Optica 8, 24 (2021). 2020年 35. H. Li#, H. Moussa#, D. Sounas, and A. Alù*, “Parity-Time Symmetry Based on Time Modulation,” Phys. Rev. Appl. (Editors' Suggestion, Letter) 14, 031002 (2020). 34. H. Li, A. Mekawy, A. Krasnok, and A. Alù*, “Virtual Parity-Time Symmetry,” Phys. Rev. Lett. 124, 193901 (2020). 33. X. Wang, A. Díaz-Rubio, H. Li, S. A. Tretyakov and A. Alù, “Theory and Design of Multifunctional Space-Time Metasurfaces,” Phys. Rev. Appl. 13, 044040 (2020). 32. L. J. Fernández-Alcázar#, H. Li#, F. Ellis, A. Alù, and T. Kottos, “Robust Scattered Fields from Adiabatically Driven Targets around Exceptional Points,” Phys. Rev. Lett. 124, 133905 (2020). 2019年 31. A. Krasnok*, D. Baranov, H. Li, M. A. Miri, F. Monticone, and A. Alù*, “Anomalies in Light Scattering”, Adv. Opt. Photon.11, 892 (2019). (Invited Review) 30. Z. Xiao, H. Li, T. Kottos and A. Alù*, “Enhanced Sensing and Nondegraded Thermal Noise Performance Based on PT-Symmetric Electronic Circuits with a Sixth-Order Exceptional Point,” Phys. Rev. Lett.123, 213901 (2019). 29. H. Li, A. Mekawy and A. Alù*, “Beyond Chu’s Limit with Floquet Impedance Matching,” Phys. Rev. Lett. 123, 164102 (2019). 28. H. Li#, L. J. Fernández-Alcázar#, F. Ellis, B. Shapiro, and T. Kottos, “Adiabatic Thermal Radiation Pumps for Thermal Photonics,” Phys. Rev. Lett. 123, 165901 (2019). 27. Z. M. Gan, H. Li and T. Kottos, “Effects of disorder in frozen-mode light,” Opt. Lett. 44, 2891(2019). 26. H. Li and T. Kottos*, “Design algorithms of driving-induced nonreciprocal components”, Phys. Rev. Appl. 11, 034017 (2019). 25. S. Suwunnarat, D. Halpern, H. Li*, B. Shapiro* and T. Kottos*, “Dynamically modulated perfect absorbers”, Phys. Rev. A 99, 013834 (2019). 2018年 24. P. Chiarawongse#, H. Li#, W. Xiong, C. W. Hsu#, H. Cao, T. Kottos, “Statistical description of transport in multimode fibers with mode-dependent loss”, New J. Phys. 20, 113028 (2018). 23. H. Li, B. Shapiro, and T. Kottos, “Floquet scattering theory based on effective Hamiltonians of driven systems”, Phys. Rev. B(Rapid Communications) 98, 121101(R) (2018). 22. H. Li#, S. Suwunnarat#, T. Kottos, “Statistical Design of Chaotic Waveforms with Enhanced Targeting Capabilities”, Phys. Rev. B(Rapid Communications) 98, 0411079(R) (2018). 21. D. Halpern, H. Li* and T. Kottos*, “Floquet protocols of adiabatic state flips and reallocation of exceptional points”, Phys. Rev. A 97, 042119 (2018). 20. H. Li, T. Kottos, and B. Shapiro, “Floquet-Network Theory of Nonreciprocal Transport”, Phys. Rev. Appl. 9, 044031 (2018). 19. H. Li, T. Kottos, and B. Shapiro, “Driving-induced metamorphosis of transport in arrays of coupled resonators”, Phys. Rev. A 97, 023846 (2018). 2017年 18. M. Chitsazi, H. Li, F. M. Ellis and T. Kottos, “Experimental realization of Floquet PT-symmetric systems”, Phys. Rev. Lett.119, 093901 (2017). 17. H. Li, S. Suwunnarat, R. Fleischmann, H. Schanz, and T. Kottos, “Random Matrix Theory Approach to Chaotic Coherent Perfect Absorbers”, Phys. Rev. Lett. 118, 044101 (2017). 16. H. Li, I. Vitebskiy, and T. Kottos, “Frozen Mode Regime in Finite Periodic Structures”, Phys. Rev. B(Rapid Communications) 96,180301(R) (2017). 2016年 15. R. Thomas#, H. Li#, F. M. Ellis and T. Kottos, “Giant nonreciprocity near exceptional-point degeneracies”, Phys. Rev. A 94, 043829 (2016). 14. H. Li, T. Kottos, and B. Shapiro, “Half-period Aharonov-Bohm oscillations in disordered rotating optical ring cavities,” Phys. Rev. A (Rapid Communications) 94, 031801(R) (2016). 13. H. Li#, R. Thomas#, F. M. Ellis and T. Kottos, “Four-port photonic structures with mirror-time reversal symmetries”, New J. Phys. 18, 075010 (2016). 12. S. Suwunnarat, H. Li, R. Fleischmann, T. Kottos, “Low-temperature linear thermal rectifiers based on Coriolis forces”, Phys. Rev. E 93, 042115 (2016). 2015年 11. N. Bender, H. Li, F. M. Ellis, and T. Kottos, “Wave-packet self-imaging and giant recombinations via stable Bloch-Zener oscillations in photonic lattices with local PT symmetry,” Phys. Rev. A(Rapid Communications) 92, 041803(R) (2015). 10. H. Li, A. Kleeman, T. Kottos, and B. Shapiro, “Interference of sound waves in a moving fluid,” Phys. Rev. B(Rapid Communications) 92, 020201(R) (2015). 9. H. Li, T. Kottos, and B. Shapiro, “Thermal transport in phononic Cayley-tree networks,” Phys. Rev. E 91, 042125 (2015). 8. H. Li and T. Kottos, “Linear thermal circulator based on Coriolis forces,” Phys. Rev. E(Rapid Communications) 91, 020101(R)(2015). 2014年以前 7. B. K. Agarwalla, H. Li, B. Li, and J.-S. Wang, “Exchange fluctuation theorem for heat transport between multiterminal harmonic systems,’’ Phys. Rev. E 89, 052101 (2014). 6. J.-S. Wang, B. K. Agarwalla, H. Li, and J. Thingna, “Nonequilibrium Green's function method for quantum thermal transport,”Front. Phys.9, 673 (2013). (Invited Review) 5. H. Li, B. K. Agarwalla, B. Li, and J.-S. Wang, “Cumulants of heat transfer across nonlinear quantum systems,” Eur. Phys. J. B 86, 500 (2013). 4. H. Li, B. K. Agarwalla, and J.-S. Wang, “Cumulant generating function formula of heat transfer in ballistic systems with lead-lead coupling,” Phys. Rev. B 86, 165425 (2012). 3. H. Li, B. K. Agarwalla, and J.-S. Wang, “Generalized Caroli formula for the transmission coefficient with lead-lead coupling,” Phys. Rev. E 86, 011141 (2012). 2. E. C. Cuansing, H. Li, and J.-S. Wang, “Role of the on-site pinning potential in establishing quasi-steady-state conditions in heat transport in finite quantum systems,” Phys. Rev. E 86, 031132 (2012). 1. J.-S. Wang, B. K. Agarwalla, and H. Li, “Transient behavior of full counting statistics in thermal transport,” Phys. Rev. B 84, 153412 (2011). Book Chapters 1. H. Li, M. Chitsazi, R. Thomas, F. M. Ellis, T. Kottos (2018) PT-symmetry and Non-Hermitian Wave Transport in Microwaves and RF Circuits. In: D. Christodoulides, J. Yang(eds) Parity-Time Symmetry and Its Applications. Springer Tracts in Modern Physics, vol 280.Springer, Singapore
社会兼职教学经历教学情况: 讲授本科生课程《数学物理方法》 研究生讲座课程 《物理学前沿》 指导员工情况: 一.博士后
二.博士研究生
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