香港六和大全

香港六和大全:闫长春导师

发布者:周浩发布时间:2021-12-22浏览次数:3971

闫长春导师个人档案

姓名:

闫长春

性别:

出生年月:

1972.9

学历:

博士研究生

职务:

院长

职称:

教授

Email:

Yancc@jsnu.edu.cn

联系电话:


专业与主要研究方向:

  1. 光学工程/光学:微纳光学

教授课程:

  1. 微纳结构光学、电动力学、电磁场与电磁波

研究生培养基础要求:

有一定的光学或电磁场理论基。晕⒛山峁沟睦砺酆椭谱骷捌湎喙乜蒲泄ぷ饔信ê裥巳。

个人教育简历:

1996年获江苏师范大学理学学士学位;

20002009年分别获得苏州大学和东南大学光学理学硕士和光学工程工学博士学位;

20092011年在(新加坡)南洋理工大学电气电子工程香港六和大全从事博士后研究工作

个人工作简历:

2018.6 – 今   香港六和大全,院长

2013.5 – 2018.5江苏师范大学科技处,副处长

2011.5 - 2013.3香港六和大全、副院长

1996.8 – 2011.5香港六和大全、教师

社会兼职:

江苏省光学学会理事、燕山大学博士生导师

近期主要主持的项目:

  1. 国家自然科学基金项目:“可见光波段高透过的大面积中红外宽带吸波器及其性能协同提高机制研究(编号:62071208”,项目经费:57万元。

  2. 国家自然科学基金项目:“基于掠角沉积技术的大面积中红外手性超材料的制备及其偏振态调控特性研究(61771227”,项目经费:65万。

  3. 国家自然科学基金项目:“基于人工等离激元结构的高阶Fano共振特性研究(61401182”,项目经费:24万。

  4. 江苏省自然科学基金项目:“由不同金属结构单元构成的特异材料对电磁波的调控(BK2011203”,项目经费:10万。

代表性论文:

  1. 1.Bo-Wen Cao, Cheng Li, Wei-Jie Shi, Cai-Qin Han, Ying Wu*, and Chang-Chun Yan*, Large-area mid-infrared broadband absorbers based on spiral ITO resulting from the combination of two different broadening absorption methods, Opt. Express, 29(21), 34427 -34440 ( 2021). 

  2. 2.Wentao Zhang (张文涛), Weijie Shi (施维捷), Hui Guo (郭 慧), and  Changchun Yan (闫长春)*, Mid-infrared flat-topped broadband chiral helix metamaterials based on indium tin oxide and their chiral properties, Chin. Opt. Lett., 19(11), 111601-(1-5) ( 2021).

  3. 3.Yuhang Song, Qin Wang, Ying Luo, Wenxi Cao, Zijin Cao, Changchun Yan, Aixia Lu*, and Caiqin Han*, Preparation of a silver nano-tripod structure by a tilting angle deposition technique and its SERS application,Opt. Express, 29(9), 13968-13977 ( 2021).

  4. 4.朱叶欣,李亚楠,施维捷,张文涛,闫长春*, 基于氧化铟锡的风扇型中红外手性超材料及其圆二向色性, 中国光学,13(4),722-727,2020.

  5. 5.Ya-Li Zhu, Bo-Wen Cao, Jing-Wen li, Ying Wu, Ai-Xia Lu, Lin-Yong Qian, Cai-Qin Han*, and Chang-Chun yan*, L-shaped ITO structures fabricated by oblique angle deposition technique for mid-infrared circular dichroism, Opt. Express, 27(23), 33243- 33250 ( 2019).

  6. 6.Linyong Qian*, Kangni Wang, Dmitry A. Bykov, Yafang Xu, Lin Zhu, and Changchun Yan*, Improving the sensitivity of guided-mode resonance sensors under oblique incidence condition, Opt. Express, 27(21), 30563- 30575 ( 2019).

  7. 7.Hong-Kai Dai, Cheng-Bei Xie, Hui-Chao Liang, Lin-Yong Qian, Cai-Qin Han,* Chang-Chun Yan,*  and Yi-Ping Zhao, Growth and optical properties of Ag-Ti composite nanorods based on oblique angle co-deposition technique, Opt. Express, 26(9), 12022-12037 ( 2018).

  8. 8.Hong-feng Wang, Jun-Xian Shi, Lin-Yong Qian, Chang-Chun Yan*, Cai-Qin Han*, and Yi-Ping Zhao, Large-area broadband optical absorber fabricated by shadowing sphere lithography, Opt. Express, 26(6), 7507-7515 ( 2018).

  9. 9.Junxian Shi, Jingshan Qi, Linyong Qian, Caiqin Han, and Changchun Yan*, Goos–H?nchen shifts in reflective phase-gradientproduced Metasurfaces,Chin. Opt. Lett., 16(6), 061602(2018).

  10. 10.Dongdong Li, Jingjing Zhang, Changchun Yan*, Zhengji Xu, and Dao Hua Zhang, Subwavelength dielectric nanorod chains for energy transfer in the visible range, Opt. Lett., 42:4223 (2017). 

  11. 11.Rong-Yuan Zou, Jun-Xian Shi, Hong-Kai Dai, Hong-Feng Wang, Lin-Yong Qian, Xing-Hai Wang, Cai-Qin Han, and Chang-Chun Yan*, Switchable reflection/transmission utilizing polarization on a plasmonic structure consisting of self-assembly polystyrene spheres with silver patches, Opt. Express, 25(8):9502-9510 (2017).

  12. 12.Ying Han, Jian-An Huang, Xiao-Ying Liu, Xue-Jin Zhang, Jun-Xian Shi, and Chang-Chun Yan*,Polarization-independent broadband plasmonic absorber based on a silicon-nanowire array decorated by gold nanoparticles at the optical regime, Opt. Express, 24(9):9178-9186 (2016).

  13. 13.Chen Dong, Bao Li, Han-Xiao Li, Hui Liu, Meng-Qi Chen, Dong-Dong Li, Chang-Chun Yan*, Dao-Hua Zhang, Polarization-insensitive magnetic quadrupole-shaped and electric quadrupole-shaped Fano resonances based on a plasmonic composite structure, Chin. Phys. Lett., 7(33):074201(2016).

  14. 14.Jie-Bing Tian, Chang-Chun Yan,* Cheng Wang, Ying Han, Rong-Yuan Zou, Dong-Dong Li, Zheng-Ji Xu, and Dao-Hua Zhang, Actively tunable Fano resonances based on colossal magneto-resistant metamaterials, Opt. Lett., 40(7):1286-1289 (2015).

  15. 15.Cheng Wang, Changchun Yan*, Jiebing Tian, Ying Han, Rongyuan Zou , Dongdong Li, and Daohua Zhang, Actively tunable metamaterial resonators based on colossal magnetoresistance in the infrared regime, Chin.Opt.Lett., 13(5):051601 (2015).

  16. 16.Jun-Xian Shi, Wen-Chao Zhang, Wan Xu, Qing Zhu, Xia Jiang, Dong-Dong Li, Chang-Chun Yan*, Dao-Hua Zhang, A Polarization-Insensitive Broadband,Metamaterial Absorber at the Optical Regime,  Chin.Phys.Lett., 32(9):094204 (2015).

  17. 17.An Yang,  Chang-Chun Yan*,  Jie-Bing Tian, Cheng Wang,, Ying Han,  Dao Hua Zhang, Dong-Dong Li,  Zheng-Ji Xu, A sensitive sensor with a double U-shaped ring-based metamaterial, Appl. Phys. A,  117(2): 537-540 (2014).

  18. 18.An Yang, Changchun Yan*, Jiebing Tian, Cheng Wang, Guiming Li, and Dao Hua Zhang, “An analog of double electromagnetically induced transparency with extremely high group indexes”, Chin. Opt. Lett.,  11(5), 051602, 2013.

  19. 19.Changchun Yan*, Dao Hua Zhang, Zhengji Xu, Dongdong Li, and An Yang, “A multi-layered split ring metamaterial for a multiwavlength and tunable lasing spaser”, J. Opt.,  14(4), 045101, 2012.

  20. 20.Changchun Yan,  Dao Hua Zhang*, and Dongdong Li, “Spherical metallic nanoparticle arrays for super-resolution imaging”, J. Appl. Phys., 109(6), 063105, 2011.

  21. 21.Changchun Yan, Dao Hua Zhang*, Dongdong Li, Haijiao Bian, Zhengji Xu, and YuekeWang, “Metal nanorod-based metamaterials for beam splitting and a subdiffraction-limited dark hollow light cone”, J. Opt., 13(8), 085102, 2011.

  22. 22.Changchun Yan, Dao Hua Zhang*, Yuan Zhang, Dongdong Li, and M. A. Fiddy,  “Metal-dielectric composites for beam splitting and far-field deep sub-wavelength resolution for visible wavelengths”,Opt. Express, 18(14), 14794-14801, 2010.

  23. 23.Changchun Yan, Dao Hua Zhang*, Dongdong Li, and Yuan Zhang, “Dual refractions in metal nanorod-based metamaterials”, J. Opt., 12(6), 065102, 2010.

  24. 24.Changchun Yan, Dongdong Li, and Dao Hua Zhang*, “Wedge-shaped metal–dielectric composite metamaterials for light control”, Metamaterials,  4(4), 170-174, 2010.

  25. 25.Changchun Yan, Qiong Wang, and Yiping Cui*, “Generating mechanism of the energy-stream loops for the evanescent waves in a left-handed material slab”, Optik, 121(1), 63-67, 2010.

  26. 26.Changchun Yan, Yiping Cui*, Qiong Wang, and Changgui Lv, “Evanescent waves of an annular left-handed material lens”, Chin. Opt. Lett., 7(2), 134-137, 2009.

  27. 27.Changchun Yan, Yiping Cui*, Qiong Wang, Shichuang Zhuo, and Jianxin Li, “Negative refraction with high transmission at visible and near-infrared wavelengths”, Appl. Phys. Lett., 92(24), 241108, 2008.

  28. 28.Changchun Yan, Qiong Wang, Shichuang Zhuo, and Yiping Cui*, “High-transmission negative refraction of discrete rod resonators confined in a metal waveguide at visible wavelengths”, Opt. Express, 16(18), 13818-13823, 2008.

  29. 29.Changchun Yan, Yiping Cui*, Qiong Wang, and Shichuang Zhuo, “Negative refractive indices of a confined discrete fishnet metamaterial at visible wavelengths”, J. Opt. Soc. Am. B, 25(11), 1815-1819, 2008.

  30. 30.Changchun Yan, Yiping Cui*, and Qiong Wang, “Negative refraction of a one-dimensional multilayer periodic composite based on the three-layer unit cell”, Physica B, 403, 3658-3662, 2008.

  31. 31.Changchun Yan, Yiping Cui*, Qiong Wang, and Shichuang Zhuo, “Negative Refraction of a Symmetrical π-shaped Metamaterial”, Chin. Phys. Lett., 25(2), 482-484, 2008.

专利:


获奖情况:

  1. 《地方高校“多方协同”培养拔尖创新型人才的实践与探索》 ,2015年获江苏省研究生培养模式改革成果一等奖

  2. 《表面等离基元纳米材料及生物应用》,2018年获江苏省高等香港六和大全科学技术研究成果奖三等奖



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