个人简述:

2014年 陕西省首届研究生创新成果展暨创新成果洽谈会二等奖及优秀奖2012年 中国科学院“院长优秀奖”2012年 博士研究生国家奖学金2010年 中科院“大恒光学集团奖学金”特别奖

科研工作:

2015.12-至今 西北工业大学理学院 副教授 2014.06-2015.12 澳大利亚斯威本科技大学微光子学中心 博士后 （导师：中国工程院外籍院士Min Gu教授） 主要研究领域：表面等离激元光子学、微纳光子学、二维材料光学 截至2018年1月，以第一作者在PhotonicsResearch、Optics Letters、Nanotechnology、Physical Review A、OpticsExpress、Scientific Reports 等国内外重要学术期刊上发表SCI论文27篇（JCR一、二区13篇，多篇被SCI他引过百次），授权国家发明专利1项。其中，2篇入选ESI“高被引论文”，1篇被Nanotechnology选为封面故事，2篇入选美国光学学会（OSA）数据库“image/video ofthe week”，3篇进入期刊月下载量“Top 10”。共发表SCI论文60余篇，被引2700余次（Google Scholar），H因子28。多次参加国际学术会议并作邀请报告或担任分会主持人。被邀请为Photonics Research、ScientificReports、Optics Letters、OpticsExpress、Europhysics Letters、Applied Optics、Optical Engineering、IEEE Photonics Journal、IEEEPhotonics Technology Letters、Plasmonics、AIP Advances、APL Photonics、Optical and Quantum Electronics、IEEE Journalof Quantum Electronics等国际重要学术期刊的审稿人。主持项目1.国家自然科学基金面上项目1项2.国家自然科学基金青年科学基金项目1项3.陕西省自然科学基础研究计划青年项目1项4.陕西省留学人员科技活动择优资助项目 1项5.西北工业大学人才引进启动经费项目1项（已结题） 发表论文如下:（SelectedPublications）37. H. Lu et al., “Flexibly tunable high-quality-factor induced transparency in plasmonic systems” Scientific Reports 8, 1558 (2018).36. H. Lu et al., “Multiple plasmonically induced transparency for chip-scale bandpass filters in metallic nanowaveguides” Optics Communications 414, 16 (2018).35. H. Lu et al., “Nearly perfectabsorption of light in monolayer molybdenum disulfide supported by multilayerstructures,” Optics Express 25, 21630 (2017). 34. H. Lu, etal., “Graphene-supported manipulation of surface plasmon polaritons inmetallic nanowaveguides,” Photonics Research 5, 162(2017).33. H. Lu, etal., “Strong plasmonic confinement and optical force in phosphorene pairs,” OpticsExpress 25, 5255 (2017).32. H. Lu, etal., “Chip-integrated plasmonic Schottky photodetection based on hybridsilicon waveguides,” Applied Physics B 123, 71 (2017).31. H. Lu, etal., “Tunable high-efficiency light absorption of monolayer graphene viaTamm plasmon polaritons,” Optics Letters 41, 4743(2016).30. H. Lu, etal., “Nanowires-assisted excitation and propagation of mid-infrared surfaceplasmon polaritons in graphene,” Journal of Applied Physics 120,163106 (2016).29. H. Lu, etal., “Graphene-based active slow surface plasmon polaritons,” ScientificReports 5, 8443 (2015).28. H. Lu, etal., “Highly efficient plasmonic enhancement of graphene absorption attelecommunication wavelengths,” Optics Letters 40, 3647(2015).27. H. Lu,“Plasmonic characteristics in nanoscale graphene resonator-coupledwaveguides,” Applied Physics B 118, 61 (2015). Before 201426. H.Lu, et al., “Optical bistability in subwavelength compoundmetallic grating,” Optics Express 21, 13794 (2013).25. H.Lu, et al., “Tunable high-channel-count bandpass plasmonicfilters based on an analogue of electromagnetically induced transparency,” Nanotechnology 23,444003 (2012).24. H.Lu, et al., “Plasmonic analogue of electromagneticallyinduced transparency in multi-nanoresonator-coupled waveguide systems,” PhysicalReview A 85, 053803 (2012).23. H.Lu, et al., “Plasmonic nanosensor based on Fano resonancein waveguide-coupled resonators,” Optics Letters 37,3780 (2012).22. H. Lu, etal., “Enhancement of transmission efficiency of nanoplasmonic wavelengthdemultiplexer based on channel drop filters and reflection nanocavities,” OpticsExpress 19, 12885 (2011).21. H. Lu, etal., “Induced transparency in nanoscale plasmonic resonator systems,” OpticsLetters 36, 3233 (2011).20. H. Lu, etal., “Ultrafast all-optical switching in nanoplasmonic waveguide with Kerrnonlinear resonator,” Optics Express 19, 2910 (2011).19. H. Lu, etal., “Tunable band-pass plasmonic waveguide filters with nanodiskresonators,” Optics Express 18, 17922 (2010).18. H. Lu, etal., “Manipulation of light in MIM plasmonic waveguide systems,” ChineseScience Bulletin 58, 3607 (2013) (Invited review).17. H. Lu, etal., “Tunable and robust reflection-free waveguides based on a gyromagneticphotonic crystal,” Journal of Electromagnetic Waves and Applications 25,1752 (2011).16. H. Lu, etal., “Optimization of supercontinuum generation in air–silica nanowires,” Journalof the Optical Society of America B 27, 904 (2010).15. H. Lu, etal., “Analysis of nanoplasmonic wavelength demultiplexing based on MIMwaveguides,”Journal of the Optical Society of America B 28,1616 (2011).14. H. Lu, etal., “Nanoplasmonic triple-wavelength demultiplexers in two-dimensionalmetallic waveguides,” Applied Physics B 103, 877(2011).13. H. Lu, etal., “Second-harmonic generation from metal-film nanohole arrays,” Appliedoptics 49, 2347 (2010).12. H. Lu, etal., “Optical bistability in MIM plasmonic Bragg waveguides with Kerrnonlinear defects,” Applied optics 50, 1307 (2011).11. H. Lu, etal., “Multi-channel plasmonic waveguide filters with disk-shapednanocavities,” Optics Communications 284, 2613 (2011).10. G. Wang, H.Lu, et al., “Gain-assisted trapping of light in tapered plasmonicwaveguide,” Optics Letters 38, 558 (2013).9. G. Wang, H.Lu, et al.,“Trapping of surface plasmon waves in gradedgrating waveguide system,” Applied Physics Letters 101,013111 (2012).8. G. Wang, H.Lu, et al., “Dispersionless slow light in MIM waveguidebased on a plasmonic analogue of electromagnetically induced transparency” OpticsExpress 20, 20903 (2012).7. G. Wang, H.Lu, et al., “Numerical investigation of an all-opticalswitch in a graded nonlinear plasmonic grating,” Nanotechnology 23,444009 (2012).6. G. Wang, H.Lu, et al., “Tunable multi-channel wavelength demultiplexerbased on MIM plasmonic nanodisk resonators at telecommunication regime,” OpticsExpress 19, 3513 (2011).5. R. Zhou, H.Lu, et al., “Second-harmonic generation from a periodicarray of noncentrosymmetric nanoholes,” Journal of the OpticalSociety of America B 27, 2405 (2010).4. D. Mao and H.Lu, “Formation and evolution of passively mode-locked fiber solitonlasers operating in a dual-wavelength regime,” Journal of theOptical Society of America B 29, 2819 (2012).3. G. Wang, H.Lu, et al., “Optical bistability in metal-insulator-metalplasmonic waveguide with nanodisk resonator containing Kerr nonlinear medium,” AppliedOptics 50, 5287 (2011).2. G. Wang and H.Lu, “Unidirectional excitation of surface plasmon polaritons inT-shaped waveguide with nanodisk resonator,” Optics Communications 285,4190 (2012).1. 已授权国家发明专利《基于干涉相消的表面等离子体波分解复用器》，专利号：ZL201210545512.7.

教育背景:

2008.09-2014.01 中国科学院大学获博士学位（硕博连读）2004.09-2008.07 西安邮电学院获学士学位