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刘建军 副教授

电子科学与技术系 微纳光子学,微纳光电器件及应用 基于光子晶体、等离激元、石墨烯、纳米线及非线性材料等的微纳光子学器件设计及其理论、实验与应用研究 物电院A418 该Email地址已收到反垃圾邮件插件保护。要显示它您需要在浏览器中启用JavaScript。

刘建军,男,1979年8月出生于湖南省衡阳县。2013年7月毕业于哈尔滨工业大学航天学院空间光学工程研究中心并获工学博士学位。2013年9月受聘于湖南大学物理与微电子科学学院。2015年12月-2016年11月访学于纽约州立大学布法罗分校。

现已以第一(或通讯)作者在Opt. Lett.Appl. Phys. ExpressPhotonic. Nanostruct. Fund. Appl.Solid State Commun.Appl. Opt.Microelectron. Eng.等学术刊物上发表20篇SCI论文,2篇EI论文,申请6项且获授权4项中国发明专利,主持1项国家自然科学基金青年科学基金项目及1项湖南省自然科学基金面上项目。所在科研基地为“微纳光电器件及应用”教育部重点实验室,正从事基于光子晶体(含光子准晶)的微纳光子学及微纳光电器件及应用研究。

认真、负责并热心地对待研究组每位本科生及研究生,且结合其兴趣与背景讨论并确定其研究课题。欢迎有志于科学事业的学生及研究人员加入本研究组!

科研成果

1. 学术论文

[1]     Z. M. Wang, K. Su, B. Feng, T. H. Zhang, W. Q. Huang, W. C. Cai, W. Xiao, H. F. Liu, and J. J. Liu*. “Coupling length variation and multi-wavelength demultiplexing in photonic crystal waveguides,” Chinese Optics Letters, 16(1): 011301 (2018).

[2]     Y. F. Zhao,Z. M. Wang, Z. J. Jiang, X. Chen, C. X. Yue, J. Z. Wang, and J. J. Liu*, “Add-drop filter with compound structures of photonic crystal and photonic quasicrystal,”Journal of Infrared and Millimeter Waves, 36(3): 342-348 (2017). (In Chinese)

[3]     Z. J. Jiang and J. J. Liu*, “Progress in far-field focusing and imaging with super-oscillation,” Acta Physica Sinica, 65(23): 234203 (2016). (In Chinese)

[4]     W. C. Cai, E X. Liu, B. Feng, W. Xiao, H. F. Liu, Z. M. Wang, S. Wang, T. Y. Liang, J. Q. Liu, and J. J. Liu*. “Dodecagonal photonic quasi-crystal fiber with high birefringence,” Journal of the Optical Society of America A, 33(10): 2108-2114 (2016).

[5]     B. Feng, E X. Liu, Z. M. Wang, W. C. Cai, H. F. Liu, S. Wang, T. Y. Liang, W. Xiao, and J. J. Liu*, “Generation of terahertz hollow beams by a photonic quasi-crystal flat lens” Applied Physics Express, 9: 062003-1–062003-3 (2016).

[6]     J. J. Liu*, W. Tan, E X. Liu, H. L. Hu, Z. G. Fan, T. H. Zhang, and X. Zhang, “Planar scanning method for detecting refraction characteristics of two-dimensional photonic quasi-crystal wedge-shaped prisms,” Journal of the Optical Society of America A, 33(5): 978-983 (2016).

[7]     K. Su, Z. M. Wang, and J. J. Liu*, “Three waveguides directional coupler based on two dimensional square lattice photonic crystal,” Acta Optica Sinica, 36(3): 0323002-1–0323002-6 (2016). (In Chinese)

[8]     H. F. Liu, W. Xiao, W. C. Cai, E X. Liu, B. Feng, Z. M. Wang, T. Y. Liang, S. Wang, and J. J. Liu*, “Photonic quasi-crystal fiber with high birefringence,” Optical Engineering55(3): 036101-1– 036101-5 (2016).

[9]     W. C. Cai, E X. Liu, B. Feng, H. F. Liu, Z. M. Wang, W. Xiao,T. Y. Liang, S. Wang, J. Q. Liu, and J. J. Liu*, “Dispersion properties of a photonic quasi-crystal fiber with double cladding air holes,” Optik, 127(10): 4438-4442 (2016).

[10]  J. J. Liu*, E X. Liu, and Z. G. Fan, “Width dependence of two-dimensional photonic quasicrystal flat lens imaging characteristics,” Journal of Modern Optics, 63(7): 692-696 (2016).

[11]  J. J. Liu*, E X. Liu, Z. G. Fan, and X. Zhang, “Dielectric refractive index dependence of the focusing properties of a dielectric-cylinder-type decagonal photonic quasicrystal flat lens and its photon localization,” Applied Physics Express, 8: 112003-1–112003-4 (2015).

[12]  J. J. Liu*, E X. Liu, T. H. Zhang, and Z. G. Fan, “Thickness dependence of two-dimensional photonic quasicrystal lens imaging characteristics,” Solid State Communications, 201: 68–71 (2015).

[13]  J. J. Liu*, H. L.  Hu, W. Zhang, and Z. G. Fan, “Scatterer radius dependence of focusing properties in two-dimensional photonic quasicrystal flat lens,” Photonics and Nanostructures-Fundamentals Applications, 12(2): 138–143 (2014).

[14]  J. J. Liu* and Z. G. Fan, “Two-dimensional photonic quasicrystal flat lens with three scatterers,” Optical Engineering53(7): 077101-1–077101-4 (2014).

[15]  J. J. Liu* and Z. G. Fan, “Comparison of photonic bandgaps of two-dimensional periodic and quasi-periodic photonic crystals with different relative permittivity dielectric,” Optik 125(21): 6566–6569 (2014).

[16]  J. J. Liu*, Z. G. Fan, H. L. Hu, M. H. Yang, C. Y. Guan, L. B. Yuan, H. Guo, and X. Zhang, “Wavelength dependence of focusing properties of two-dimensional photonic quasicrystal flat lens,” Optics Letters, 37(10): 1730–1732 (2012).

[17]  Z. G. Fan, J. J. Liu*, S. Q. Chen, H. Chang, C. Y. Guan, and L. B. Yuan, “Comparative study of photonic band gaps of germanium-based two-dimensional triangular-lattice and square-lattice and decagonal quasi-periodic photonic crystals,” Microelectronic Engineering, 96: 11–17 (2012).

[18]  J. J. Liu*, Z. G. Fan, M. Kuang, G. M. He, C. Y. Guan, and L. B. Yuan, “Relative permittivity dependence of photonic band gaps for unit cells of the basic structural unit of two-dimensional decagonal photonic quasicrystals,” Optics Communications, 288: 52–55 (2012).

[19]  J. J. Liu*, B. J. Zuo, S. Q. Chen, H. L. Hu, H. S. Xiao, W. Zhang, Z. G. Fan, H. Guo, and X. Zhang, “Focusing properties of two-dimensional photonic quasicrystal flat lens at different object distances,” Optical Engineering, 51(7): 074005-1–074005-5 (2012).

[20]  J. J. Liu*, Z. G. Fan, H. S. Xiao, W. Zhang, C. Y. Guan, and L. B. Yuan, “Photonic band gap in Ge-based two-dimensional triangular lattice photonic crystals,” Journal of Infrared and Millimeter Waves, 31(1): 35–41 (2012). (In Chinese)

[21]  J. J. Liu*, Z. G. Fan, H. S. Xiao, W. Zhang, C. Y. Guan and L. B. Yuan, “Photonic bandgaps of different unit cells in the basic structural unit of germanium-based two-dimensional decagonal photonic quasi-crystals,” Applied Optics, 50(24): 4868–4872 (2011).

[22]  Z. G. Fan, J. J. Liu*, H. S. Xiao, W. Zhang, C. Y. Guan and L. B. Yuan, “Research progress on growth technique and application of sapphire single crystal,” Journal of the Chinese Ceramic Society, 39(5): 880–891 (2011). (In Chinese)

2. 中国发明专利

[1]    刘建军,刘鸿飞,蔡伟成,肖威,冯波,王梓名,王烁,梁泰源.一种新型高双折射光子准晶光纤:中国,201510407666.3,2015.07.14(发文日).

[2]    刘建军,王梓名,苏康,刘鸿飞,冯波,蔡伟成,肖威,王烁,梁泰源.一种高效光子晶体1.31/1.55μm波分复用器:中国,201510825113.X, 2015.11.25 (发文日).

[3]    刘建军,范志刚,左宝君,胡海力. 二维光子准晶楔形棱镜折射效应的双直线轨道探测方法:中国,ZL201210254546.0[P]. 2014.12.10.

[4]    刘建军,范志刚,胡海力,张旺,陈刚义,丛海佳. 简易且高成像质量的二维光子晶体平板透镜:中国,ZL201210579187.6[P]. 2015.4.22.

[5]    范志刚,刘建军,左宝君,陈守谦,张旺,胡海力. 耐高低温光学窗口支撑部件:中国,ZL201010262269.9[P]. 2012.01.04.

[6]    张旺,刘建军,范志刚,左宝君,陈守谦,胡海力. 耐高低温中波红外光学窗口及其制作方法:中国,ZL201010239974.7[P]. 2012.01.18.

主持项目

[1]    国家自然科学基金青年科学基金项目《二维光子准晶透镜成像的机理研究》(项目编号:61405058),2015.01–2017.12,25万元。

[2]    湖南省自然科学基金面上项目《二维全电介质光子晶体的三重简并态及零折射率》(项目编号:2017JJ2048),2017.01–2019.12,5万元。

[3]    湖南大学青年教师成长计划资助(中央高校基本科研业务费),2014.01–2018.12,25万元。

主讲课程

1. 本科生课程

[1]    《模拟电子技术》(从2012级本科生开始),学类核心课.

[2]    《光波导原理与器件》(从2011级本科生开始),专业选修课.

2. 硕士生课程

[1]    《微纳光子学原理(学术型)》(从2016级硕士生开始),学位方向课.

《微纳光子学器件及应用(专业型)》(从2016级硕士生开始),专业选修课.