黄陆军

2004.09-2008.07 华东师范大学 理工学院物理系，学士。

2008.09-2012.08 中科院上海技术物理研究所，微电子与固体电子学， 硕士研究生

2012.08-2017.12 北卡罗莱纳州立大学(美国)，材料科学与工程系，博士

2018.07-2021.11 新南威尔士大学(澳大利亚)  博士后

2022.07-至今    华东师范大学            青年研究员 

主要从事光(声)与物质相互作用研究，通过设计构建光子晶体和介质超表面实现调控光与电磁波(声波)的局域与传播。在相关领域发表论文40余篇，其中一作或者通讯作者20余篇，包括Physics Reports, Report on Progress in Physics, Nature Communications, Nano Letters, ACS Nano, Advanced Science, Advanced Photonics, Laser Photonics Reviews等。 

招生信息

欢迎对纳米光学、二维材料光学、声学超材料感兴趣的同学咨询程亚教授团队黄陆军研究员课题组！ 

目前担任美国物理学会Physical Review 系列杂志(PRL、PRApplied和PRB等)、Nature Photonics、Nature Communications、Advanced Materials,Advanced Functional Materials、Optica等期刊的审稿人。曾担任Journal of Optics的二维材料纳米光子学特刊客座编辑。

主要研究方向为光(声)与物质的相互作用，包括全介质纳米光子学，二维材料纳米光子学，声学超材料和超表面等。

(1)基于介质超材料和超表面的纳米光子学。主要研究介质超材料和超表面的共振模式特性以及利用这些共振模式增强光与物质的相互作用。近期重点着重研究一类特殊的共振模式-连续谱束缚态(BICs)。BICs是一种特殊的共振漏模，它的Q因子具有无穷大的特点。伴随着无穷大的Q因子，它的场局域能力也极强。这两个优异的特性使得BICs被广泛用来增强光与物质相互作用，包括激光器，强耦合，非线性谐波增强，传感器等。

(2)二维材料纳米光学。典型的二维材料包括石墨烯和过渡族金属硫化物，它们的相互作用是范德瓦尔斯力。单层过渡族金属硫化物具有直接带隙半导体和谷电子学特性，被视为实现原子层集成电路和集成光路的理想平台。我们将主要研究集成光学共振微腔与二维过渡族金属硫化物实现增强光与物质相互作用，并制备高性能光子与光电子器件，包括激光器，非线性谐波以及手性光源。

(3)声学超材料和超表面，目前主要研究耦合波导-谐振子体系中的声学连续谱束缚态。

电动力学

华东师范大学双百启动经费

上海市浦江人才计划  

发表论文(+贡献相同，*通讯作者)

2024

1. T. Liu, D. Zhang, W. Liu, T. Yu, F. Wu, S. Xiao*, L. Huang*, and A. E. Miroshnichenko*, Phase-change nonlocal metasurface for dynamic wave-front manipulations, Phys. Rev. Appl. 21, 044004 (2024)

2. L.  Huang+*, S. Li+, C. Zhou*, H. Zhong, S. You, L. Li*, Y. Cheng,  and A. E. Miroshnichenko*,  Realizing ultrahigh-Q resonances through harnessing symmerty-protected bound states in the continuum, Adv. Funct. Mater. 34 (11), 2309982 (2024)

3. L. Wang, and L. Huang*, J. Opt 26, 045001 (2024) (Invited paper)

4.  L. Huang+*,  S. Huang+, C. Shen+, S. Yves+, A. Pilipchuk+, X. Ni, S. Kim, Y. Chiang, D. A. Powell, J. Zhu, Y. Cheng, Y. Li*, A. F. Sadreev*, A. Alù*, and A. E Miroshnichenko*, Acoustic resonances in non-Hermitian open systems, Nature Reviews Physics 6,11-27 (2024)

2023

1.  M. Zhou+, S. You+, L. Xu, M. Fan, J. Huang, W. Ma, M. Hu, S. Luo, M. Rahmani, Y. Cheng, L. Li, C. Zhou*, L. Huang*, A. E. Miroshnichenko*, " Bound states in the continuum in all-dielectric metasurfaces with scaled lattice constants", Science China Physics, Mechanics & Astronomy 66, 124212 (2023).

2.   Z. Li, M. Xie, G. Nie*, J. Wang, L. Huang*, "Pushing optical virus detection to a single particle through a high-Q quasi-bound states in the continuum in an all-dielectric metasurfaces", The Journal of Physical Chemistry Letters 14, 10762(2023)

3.  F. Kronowetter, M. Maeder, Y. Chiang, L. Huang, J. Schmid, S. Oberst, D. A. Powell, and S. Marburg, "Realistic prediction and engineering of high-Q modes to implement stable Fano resonances in acoustic devices", Nature Communications 14, 6747(2023)

4. R. Jin, Lujun Huang*, C. Zhou, J. Guo, Z. Fu, J. Chen, J. Wang, X. Li, F. Yu, J. Chen, Z. Zhao, X. Chen, W. Lu, and G. Li*, "Toroidal Dipole BIC-Driven Highly Robust Perfect Absorption with a Graphene-Loaded Metasurface", Nano Letters 23, 9105-9113 (2023)

5.  I. A. Al-Ani, K. As’Ham, M. Alaloul, L. Xu, H. T. Hattori, L. Huang*, Andrey E Miroshnichenko*, "Quasibound state in continuum-induced double strong coupling in perovskite and WS2 monolayers",  Phys. Rev. B 108, 045420 (2023) 

6.  L. Huang+*, R. Jin+, C. Zhou+, G. Li*, L. Xu, A. Overvig, F. Deng, X. Chen, W. Lu, A. Alu*, A. E.  Miroshnichenko*, "Ultrahigh-Q guided resonance in an all-dielectric metasurface", Nature Communication 14, 3433 (2023)

7. S. You+, M. Zhou+, L. Xu, D. Chen, M. Fan, J. Huang, W. Ma, S. Luo, M. Rahmani, C. Zhou*, A. E. Miroshnichenko*, L. Huang*, "Quasi-bound states in the continuum with a stable resonance wavelength in dimer dielectric metasurfaces", Nanophotonics 12, 2051 (2023)

8.  R. Wang+, L. Xu+, L. Huang+, X. Zhang, H. Ruan, X. Yang, J. Lou, C. Chang*, X. Du*, "Ultrasensitive terehertz biodetection enabled by quasi-BIC-based metasensors", Small 19, 2301165 (2023)

9.  K. Khalil, I. Al-Ani, M. Alaloul, S. Abdo, A. Abdulghani, W. Lei, H. T. Hattori*, L. Huang*, A. E. Miroshnichenko*,  "Enhanced strong coupling in the hybrid dielectric-metallic nanoresonator and WS2 monolayer", Phys. Rev. Appl. 19, 054049 (2023) 

10.  W. Ma, C. Zhou*, D. Chen, S. You, X. Wang, L. Wang, L. Jin, L. Huang*, D. Wang*, A. E. Miroshnichenko*, "Active quasi-BICs metasurface assisted by epsilon-near-zero materials", Opt. Express 31, 13125 (2023)

11.  B. Jia+, L. Huang+*, A. S. Pilipchuk+, S. Huang, C. Shen, A. F. Sadreev*, Y. Li*, and A. E. Miroshnichenko*, "Bound states in the continuum protected by reduced symmetry of three dimensional open acoustic resonators", Phys. Rev. Appl. 19, 054001(2023)

12. Z. Zheng, Lei Xu*, Lujun Huang, D. Smirnova, K. Z. Kamali, A. Yousefi, F. Deng, R. C. Morales, C. Ying,  A.  E. Miroshnichenko, D. N. Neshev, M. Rahmani*, "Third-harmonic generation and imaging with resonant Si membrane metasurface", Opto-Electronic Advances 6, 220174 (2023)

13.  L. Huang, L. Xu, D. A. Powell, W. J. Padilla, A. E. Miroshnichenko*, "Resonant leaky modes in all-dielectric metasystems: Fundamentals and Applications", Phys. Rep. 1008, 1-66 (2023)

14.   C. Zhou+, L. Huang+*, R. Jin+, L. Xu, G. Li*, M. Rahmani, X. Chen, W. Lu,  A. E. Miroshnichenko*, “Bound states in the continuum in asymmetric dielectric metasurfaces”, Laser &Photonics Reviews 17, 202200564 (2023) (Featured as Front Inside Cover)

2022

1.   L. Huang+*, B. Jia+, A.S.Pilipchuk+, Y. Chiang, S. Huang, J. Li, C. Shen, E. N. Bulgakov,  F. Deng, D. A. Powell, S. A. Cummer, Y. Li*, A. F. Sadreev*, A. E. Miroshnichenko*, “General framework of bound states in the continuum in an open resonator”, Phys. Rev. Appl 18, 054201 (2022)

2.   Z. Zheng, L. Xu*, L. Huang, D. Smirnova, P. Hong, C. Ying, M. Rahmani, “Boosting second-harmonic generation in the LiNbO3 metasurface using high-Q guided resonances and bound states in the continuum”, Phys. Rev. B 106, 125411(2022)

3. A. Sadreev*, E. Bulgakov, A. Pilipchuk, A. E.Miroshnichenko, L. Huang, “Degenerate bound states in the continuum in square and triangular open acoustic resonators”, Phys. Rev. B 106, 085404(2022)

4.   M. Alaloul, J. B. Khurgin, I. Al-Ani, K. As’ham, L. Huang, H. T. Hattori, A. E Miroshnichenko*, “On-chip low-loss all-optical MoSe2 modulator”, Opt. Letts. 47, 3640(2022)

5.   K. As' ham, I. Al-Ani, W. Lei, H. T. Hattori, L. Huang*, A. E. Miroshnichenko*, “Mie exciton-polariton in a perovskite metasurface”, Phys. Rev. Appl. 18, 014079(2022) 

6.     L. Huang+*, B. Jia+,  Y. Chiang, S. Huang, C. Shen, F. Deng, T. Yang, D. A. Powell, Y. Li*, A. E. Miroshnichenko*, “Topological Supercavity resonances in the finite system”, Adv. Sci. 9, 2200257 (2022)

7.  R. M. Saadabad, L. Huang, A. B. Evlyukhin*, A. E. Miroshnichenko*, “Multifaced anapoles: from physics to applications”, Opt. Mater. Exp. 12, 1817(2022)

8.  F. Yu, J. Chen, L. Huang, Z. Zhao, J. Wang, R. Jin, J. Chen, J. Wang, A. E. Miroshnichenko, T. Li, G. Li*, X. Chen, W. Lu, “Photonic slide rule with metasurfaces”, Light Science & Applications 11, 77(2022)

9.  B. Meng, J. Wang, C. Zhou*, L. Huang*, “Bound states in the continuum supported by silicon oligomer metasurfaces”, Opt. Letts. 47, 1549(2022)

10.  I. Al-Ani+, K. As' Ham+, O. Klochan, H. T. Hattori, L. Huang*, A. E. Miroshnichenko*, “Recent advances on strong ligh-matter interaction in atomically thin TMDC semiconductor materials”, J. Opts. 24, 053001(2022) (Invited Review)

11.  R. Zhou, T. Guo, L. Huang, K. Ullah*, “Engineering the harmonic generation in graphene”, Materials Today Physics 23, 100649(2022)

12. C. Zhou*, T. Pu, J. Huang, M. Fan, L. Huang*, “Manipulating optical-scattering of QBICs in dielectric metasurface with off-center hole”, Nanomaterials 12, 54(2022)

13.     L. Huang+, A. Krasnok+, A. Alu, Y. Yu, D. Neshev, A. E. Miroshnichenko, “Enhanced Light-Matter Interaction in Two-Dimensional Transition Metal Dichalcogenides”, Rep. Prog. Phys 85, 046401 (2022)  (Invited Review)

14.   I. Al-Ani, K. As'Ham, L. Huang*, A. E. Miroshnichenko*, W. Lei, H. T. Hattori*, “Strong Coupling of Exciton and High-Q Mode in All-Perovskite Metasurfaces”, Adv. Opt. Mater 10, 2101120 (2022)

2021

1.     R. M. Saadabad, L. Huang*, A. E. Miroshnichenko*, “Polarization-independent perfect absorber enabled by quasi-bound states in the continuum”, Phys. Rev. B 104, 235405 (2021)

2.     I. Al-Ani, K. As'Ham, L. Huang*, A. E. Miroshnichenko*, H. T. Hattori*, “Enhanced strong coupling of TMDC monolayers by bound states in the continuum”, Laser &Photonics Reviews 15, 2100240 (2021) 

3.   K. Ou, F. Yu, G. Li*, W. Wang, J. Chen, A. E. Miroshnichenko*, L. Huang, T. Li, Z.  Li, X. Chen*, W. Lu, “Broadband achromatic metalens in mid-wavelength infrared”, Laser &Photonics Reviews 15, 2100020 (2021)

4     L. Huang, Y. Chiang, S. Huang, C. Shen, F. Deng, Y. Cheng, B. Jia, Y. Li, D. A. Powell, A. E. Miroshnichenko, “Sound trapping in an open resonator”, Nat. Commun. 12, 4819 (2021)

5.   Q. Zhou+, Y. Fu+*, L. Huang, Q. Wu, A. E. Miroshnichenko, L. Gao*, Y. Xu*, “Geometry symmetry-free and high-order bound states in the continuum”, Nat. Commun. 12, 4310 (2021)

6.  J. Y. Lee, L. Huang, L. Xu, A. E Miroshnichenko, R. Lee, “Broadband control on evens with interferometric coherent waves”, New Journal of Physics 23, 063014(2021)

7.     L. Huang+, L. Xu+, M. Rahmani, D. Neshev, A. E. Miroshnichenko*, “Pushing the limit of high-Q modes of a single dielectric nanocavity”, Adv. Photonics 3, 016004 (2021)

8.     K. As’ ham, I. Al-Ani, L. Huang*, A. E. Miroshnichenko, HT Hattori, “Boosting Strong Coupling in a Hybrid WSe2 Monolayer–Anapole–Plasmon System”, ACS Photonics 8, 489 (2021)

2020

1.   K. Ou+, F. Yu+, G. Li*, W. Wang, A. E. Miroshnichenko*, L. Huang, P. Wang, T. Li, Z. Li, X. Chen*, W. Lu, “Mid-infrared polarization-controlled broadband achromatic metadevices”, Sci. Adv. 6, eabc0711(2020)

2.   I. Volkovskaya, L. Xu, L. Huang, A. I. Smirnov, A. E Miroshnichenko, D. A. Smirnova*, “Multipolar second-harmonic generation from high-Q quasi-BIC states in subwavelength resonators”, Nanophotonics 9, 3953(2020)

3.  L. Huang, L. Xu, M. Woolley, A. E Miroshnichenko*, “Trends in quantum nanophotonics”,  Adv. Quant. Tech. 3, 1900126(2020)

4.  L. Xu, M. Rahmani, Y. Ma, D. A. Smirnova, K. Z. Kamali, F. Deng, Y. K. Chiang, L. Huang, H. Zhang, S. Gould, D. N. Neshev, A. E. Miroshnichenko*, “Enhanced ligh-matter interactions in dielectric nanostructures via machine learning approache”, Adv. Photonics 2, 026003 (2020) (Selected as best paper of AP in 2021)

5.  Y. Yu, T. Minhaj, L. Huang, Y. Yu, L. Cao*, “In-plane and interfacial thermal conduction of two-dimensional transition metal-dichalcogenides”, Phys. Rev. Appl. 13,  034059(2020) 

2019

1.  L. Xu, G. Saerens, M. Timofeeva, D. A. Smirnova, I. Volkovskaya, M. Lysevych, R. Camacho-Morales, M. Cai, K. Z. Kamali, L. Huang, F. Karouta, H. H. Tan, C. Jagadish, A. E. Miroshnichenko*, R. Grange*, D. N. Neshev*, M. Rahmani, “Foward and backward switching of nonlinear unidirectional emission from GaAs nanoantennnas”, ACS Nano 14, 1379(2019)

2.   L. Xu, K. Z. Kamali, L. Huang, M. Rahmani, A. Smirnov, R. Camacho‐Morales, Y. Ma, G. Zhang, M. Woolley, D. N. Neshev, A. E. Miroshnichenko*, “Dynamic nonlinear image tuning through magnetic dipole quasi-BIC ultrathin resonators”, Adv. Sci 6, 1802119 (2019)

3.  K. Ullah, M. Habib, L. Huang, B. Garcia-Camara, “Analysis of the substrate effect on the zero-backward scattering condition of a Cu2O nanoparticle under non-normal illumination”, Nanomaterials 9, 536(2019)

Before 2019

1.   K. Ullah, L. Huang*, M. Habib,  X. Liu, “Engineering the optical properties of dielectric nanospheres by resonant modes”, Nanotechnology, 29, 505204 (2018) 

2.  Y. Yu, G. Li, L. Huang, A. Barrette, Y. Q. Cai, Y. Yu, K. Gundogdu, Y. W. Zhang, L. Cao*, “Enhancing multifunctionality of transition-metal dichalcogenides via caption intercalation”, ACS Nano 11, 9390(2017)

3.  Y. Yu, Y. Yu, L. Huang, H.i Peng, L. Xiong, L. Cao*, “Giant gating tunablity of optical refractive index in transition metal dichalcogenide monolayers”, Nano. Letts 17, 3613(2017)

4.    L. Huang, G. Li, A. Guraslan, Y. Yu, R. Kirste, W. Guo, J. Zhao, R. Collazo, Z. Sitar, G. N. Parsons, M. Kudenov, L. Cao*, “Atomically thin MoS2 Narrowband and Broadband Light Superabsorbers”, ACS Nano 10, 7493 (2016)  

5.  Y.  Yu+, S. Hu+, L. Su+, L. Huang, Y. Liu, Z. Jin, A. A. Purezky, D. B. Geohegan, K. W. Kim, Y. Zhang, L. Cao* , “Equally efficient interlayer exciton relaxation and improved absorption in epitaxial and nonepitaxial MoS2/WS2 heterostructures”, Nano. Letts 15, 486 (2015)

6.    L. Huang,Y. Yu, L. Cao*,“General modal properties of optical resonances in subwavelength nonspherical dielectric structures”, Nano. Letts. 13, 3559(2013)  

7.    L.  Huang,  X.  Chen*.  B.  Ni,  G.  Li,  X.  Wang, Z. Li, W. Lu, “ A general transformation for compact waveguide coupler by using homogeneous media”, Photonics. Nanostruct-Fund. Appl 11, 115(2013)

8.    L. Huang, X. Chen*, B. Ni, G. Li, Z. Li, W. Lu, “Design of highly directive antenna made ofhomogeneous media”, J. Opt. Soc.Ame. B. 29, 3150(2012) (IF=2.106)

9.    L. Huang, Z. Wang, S. Zhou, G. Li, B. Ni, X. Wang, Z. Li, X. Chen*, W. Lu,“A novel design for high gain lens antenna with homogeneous media”, Photonics. Nanostruct-Fund. Appl 10, 615(2012)  

10.  L. Huang, D. Zhou, J. Wang, Z. Li, X. Chen*, W. Lu,   “Scattering characteristics of nonmagnetic invisibility cloak with minimized scattering ”,Opt. Commun 284, 5523(2011) 

11.  L. Huang, D. Zhou, J. Wang, G. Li, Z. Li, X. Chen*, W. Lu,“Ageneralized transformation to convert an arbitrary perfect conductor into another arbitrary dielectric object”, J. Phys. D:Appl Phys, 44, 235102(2011)  

12.  L. Huang,  D. Zhou, J. Wang, Z. Li, X. Chen*, W.  Lu, “Generalized transformation for nonmagnetic invisibility cloak with minimized scattering”, J. Opt. Soc.Ame.B, 28, 922(2011) 

2012年中科院院长优秀奖

2016年国家海外自费留学生奖学金

2022年华东师范大学紫江青年学者

2022年上海市浦江人才计划

2022年上海市海外高层次人才

2023年国家海外高层次青年人才