孔凡敏
教授
访问次数:
基本信息
  • 教师拼音名称:
    Kong Fanmin
  • 入职时间:
    1999-08-01
  • 所在单位:
    信息科学与工程学院
  • 职务:
    微纳光电子研究所所长
  • 学历:
    博士研究生毕业
  • 办公地点:
    山东大学青岛校区第周苑D楼(N5楼)-237
  • 性别:
  • 联系方式:
    kongfm@sdu.edu.cn
  • 学位:
    博士
  • 在职信息:
    在职
  • 毕业院校:
    山东大学
  • 博士生导师
  • 硕士生导师
学科:
电磁场与微波技术;
教师简介

1991年毕业于山东大学电子工程系,获学士学位;1994年毕业于山东大学电子工程系,获硕士学位;1999年毕业于山东大学物理系,获博士学位;2007年4月至2008年4月作为访问学者在美国麻省理工学院电子研究室进行合作研究;现为山东大学信息科学与工程学院教授、博士生指导老师,微纳光电子研究所所长。长期从事《微波技术与天线》、《射频电路》、《现代电磁计算技术》等课程的教学工作。先后承担完成了“金属/介质纳米结构光天线的基础研究(60877018)”,“宽光谱高效率纳米金属光天线的研究(61077043)”, “基于SiC衬底的GaN基功率LED光电热耦合与光子调控的研究(61475084)”等国家自然科学基金面上项目,并参加完成了“大直径随钻测井系统装备研制与示范作业(2016YFC0302800)”“金属/介质纳米异质结构中的局域耦合效应及其在光电转换器件中的应用(2009CB930500)”、“光诱导人工光学结构及光传播特性的研究(2007CB613203)”等国家重点研发计划。在国际刊物以及重要学术会议发表论文120多篇,其中近100篇被SCI和EI收录共培养硕士、博士研究生三十多人。

教育经历
  • 1991-9 — 1994-5
    山东大学
    无线电物理
    硕士研究生
  • 1996-9 — 1999-7
    山东大学
    物理学类其他专业
    博士
工作经历
  • 2007-4 — 2008-4
    美国麻省理工学院(访问学者)
  • 1999-8-至今
    山东大学信息科学与工程学院
研究领域

电磁场数值计算

射频/光电子器件设计

射频/微波天线

科研成果
论文

1.  王士铨. A miniaturized triple-band planar antenna combing single-cell metamaterial structure and defected ground plane for WLAN/WiMAX applications.  Journal of Electromagnetic Waves and Applications,  35,  2022. 

2.  王士铨. Design and Analysis of a Compact Frequency Beam-Scanning Antenna Based on Composite FHMSIW/SSPP Waveguide.  《IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS》,  21,  546, 2022. 

3.  王士铨. A unidirectional frequency beam-scanning antenna using composite slow-wave waveguide based on substrate integrated waveguide and spoof surface plasmon polariton structure.  IET Microwaves, Antennas and Propagation,  15,  1833, 2021. 

4.  王士铨. A planar triple-band monopole antenna loaded with an arc-shaped defected ground plane for WLAN/WiMAX applications.  INTERNATIONAL JOURNAL OF MICROWAVE AND WIRELESS TECHNOLOGIES,  13,  381, 2021. 

5.  朱高阳. A Fast Inversion of Induction Logging Data in Anisotropic Formation Based on Deep Learning.  IEEE Geoscience and Remote Sensing Letters,  17,  2050, 2020. 

6.  王士铨. A miniaturized triple-band planar antenna combing single-cell metamaterial structure and defected ground plane for WLAN/WiMAX applications.  Journal of Electromagnetic Waves and Applications,  2020. 

7.  高睦志. Graphene-Based Composite Right/Left-Handed Leaky-Wave Antenna at Terahertz.  Plasmonics,  15,  1199, 2020. 

8.  朱高阳. Application of Logging While Drilling Tool in Formation Boundary Detection and Geo-steering.  SENSORS,  2019. 

9.  向琛. A Quantum State Controller Based on the Electromagnetic Potentials.  IEEE Access ,  7,  42006, 2019. 

10.  刘萌. Enhancement of the light-extraction efficiency of light-emitting diodes with SiO2 photonic crystals.  Optik,  161,  27, 2018. 

11.  向琛. A High-Order Symplectic FDTD Scheme for the Maxwell-Schrodinger System.  IEEE Journal of Quantum Electronics,  54,  2018. 

12.  刘萌. Enhancement of the light-extraction efficiency of light-emitting diodes with SiO2 photonic crystals.  Optik-International Journal for Light and Electron Optics,  2018. 

13.  孔凡敏  and 李康. Broad tunable nanoantenna based on graphene log-periodic toothed structure.  Plasmonics,  2016,  2016. 

14.  李康  and 孔凡敏. Analysis of the light-extraction efficiency of SiC substrate-based flip-chip vertical light-emitting diodes with embedded photonic crystals.  Japanese Journal of Applied Physics,  55,  112101, 2016. 

15.  孔凡敏  and 李康. A wavelength demultiplexing structure based on graphene nanoribbon resonators.  Optics communications,  381,  396–402, 2016. 

16.  岳庆炀. Analysis on the effect of amorphous photonic crystals on light extraction efficiency enhancement for GaN-based thin-film-flip-chip light-emitting diodes.  Optics communications,  367,  72, 2016. 

17.  刘萌. Electrical-optical analysis of photonic crystals GaN-based high power light emitting diodes.  OPTICAL AND QUANTUM ELECTRONICS,  48,  2016. 

18.  孔凡敏  and 李康. Transformation optics methodology for changing the appearance of an object.  Journal of the Optical Society of Koear,  20,  321, 2016. 

19.  孔凡敏. Graphene-based infrared lens with tunable focal length.  Progress In Electromagnetics Research,  155,  19, 2016. 

20.  孔凡敏  and 李康. Plasmonic cloak using graphene at infrared frequencies .  Optics communications,  354,  154, 2015. 

21.  李康  and 孔凡敏. Tunable plasmonic Bragg reflector with different graphene nanoribbon widths.  Japanese Journal of Applied Physics,  54,  2015. 

22.  李康  and 孔凡敏. Graphene-based electromagnetically induced transparency with coupling Fabry-Perot resonators.  Applied Optics,  54,  7455, 2015. 

23.  孔凡敏  and 李康. Enhanced light- extraction efficiency of GaN-based light- emitting diodes with hybrid Photonic Crystals.  Optical and Quantum Electronic,  47,  2593, 2015. 

24.  李康  and 孔凡敏. Enhanced light- extraction efficiency of GaN-based light- emitting diodes with hybrid Photonic Crystals.  Optical and Quantum Electronic,  47,  2593, 2015. 

25.  李康  and 孔凡敏. Improved the light extraction efficiency of GaN vertical light-emitting diodes using 3D sphere-like arrays.  OPTICAL AND QUANTUM ELECTRONICS,  47,  2957, 2015. 

26.  孔凡敏  and 李康. A dielectric logging tool with insulated with insulated collar for formation fluid detection around borehole .  Journal of Applied Geophysics,  119,  16, 2015. 

27.  李康  and 孔凡敏. Improvement of the light extraction efficiency of light-emitting diodes based on ZnO nanotubes.  Photonics and Nanostructures,  16,  9, 2015. 

28.  孔凡敏  and 李康. Improved the light extraction efficiency of GaN vertical light-emitting diodes using 3D sphere-like arrays.  OPTICAL AND QUANTUM ELECTRONICS,  47,  2957, 2015. 

29.  孔凡敏  and 李康. Enhanced light- extraction efficiency of GaN-based light- emitting diodes with hybrid Photonic Crystals.  Optical and Quantum Electronic,  47,  2593, 2015. 

30.  孔凡敏  and 李康. A dielectric logging tool with insulated with insulated collar for formation fluid detection around borehole .  Journal of Applied Geophysics,  119,  16, 2015. 

31.  孔凡敏  and 李康. Improved the light extraction efficiency of GaN vertical light-emitting diodes using 3D sphere-like arrays.  OPTICAL AND QUANTUM ELECTRONICS,  47,  2957, 2015. 

32.  孔凡敏  and 李康. Improvement of the light extraction efficiency of light-emitting diodes based on ZnO nanotubes.  Photonics and Nanostructures,  16,  9, 2015. 

33.  李康  and 孔凡敏. Tooth-shaped plasmonic filter based on graphene nanoribbon.  Acta Physica,  64,  2015. 

34.  李康  and 孔凡敏. Analysis of a log periodic nano-antenna for multi- resonant broadband field enhancement and the Purcell factor.  Optics communications,  342,  230, 2015. 

35.  李康  and 孔凡敏. A gating tunable planar lens based on graphene.  OPTICAL AND QUANTUM ELECTRONICS,  47,  1139, 2015. 

36.  李康  and 孔凡敏. Plasmonic bandpass filter based on graphene nanoribbon.  Applied Optics,  54,  2558, 2015. 

37.  孔凡敏  and 李康. Improving the vertical light extraction efficiency of GaN-based thin-film flip-chip LED with double embedded photonic crystals.  IEEE Journal of Quantum Electronics,  51,  2015. 

38.  孔凡敏  and 李康. Improving the vertical light extraction efficiency of GaN-based thin-film flip-chip LED with double embedded photonic crystals.  IEEE Journal of Quantum Electronics,  51,  2015. 

39.  孔凡敏  and 李康. Analysis of a tunable band-pass plasmonic filter based on graphene nanodisk resonator. .  Optics communications,  336,  189, 2015. 

40.  李康  and 孔凡敏. Analysis of a tunable band-pass plasmonic filter based on graphene nanodisk resonator. .  Optics communications,  336,  189, 2015. 

41.  孔凡敏  and 李康. A Borehole Fluid Saturation Evaluation Method Using Unidirectional Monopole UWB Antenna.  IEEE Geoscience and Remote Sensing Letters,  12,  429, 2015. 

42.  孔凡敏  and 李康. Analysis on the light- extraction efficiency of GaN-based light-emitting diodes with deep-hole amorphous photonic crystals structures..  IEEE Journal of Display Technology,  10,  1070, 2014. 

43.  孔凡敏. Analysis of graphene-based half Maxwell fish-eye lens using effective index method.  Optical Engineering,  53,  2014. 

44.  李康  and 孔凡敏. Analysis on the light- extraction efficiency of GaN-based light-emitting diodes with deep-hole amorphous photonic crystals structures..  IEEE Journal of Display Technology,  10,  1070, 2014. 

45.  孔凡敏. Analysis of graphene-based half Maxwell fish-eye lens using effective index method.  Optical Engineering,  53,  2014. 

46.  孔凡敏  and 李康. Improving the vertical light-extraction efficiency of GaN-based thin-film flip-chip leds with p-side deep-hole photonic crystals.  IEEE Journal of Display Technology,  10,  909, 2014. 

47.  李康  and 孔凡敏. Study of light extraction efficiency of GaN-based light emitting diodes by using top micro/nanorod hybrid arrays .  OPTICAL AND QUANTUM ELECTRONICS,  46,  1413, 2014. 

48.  孔凡敏  and 李康. Study of light extraction efficiency of flip-chip GaN-based LEDs with different periodic arrays..  Optics communications,  314,  90, 2014. 

49.  孔凡敏. Optimizing the bowtie nano-antenna for enhanced purcell factor and electric field.  Progress In Electromagnetics Research Letters,  44,  93, 2014. 

50.  孔凡敏  and 李康. Improving light extraction efficiency of GaN-based LEDs by AlxGa1-xN confining layer and embedded photonic crystals.  IEEE Journal of Selected Topics in Quantum Electronics,  18,  1650, 2012. 

专利
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