康永强
时间:2025-03-24 09:52:27 来源: 访问量:
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姓名:康永强 职称:教授 硕士生导师 |
研究方向:材料工程 兴趣领域:微纳光学,超材料 电子邮箱:kyq_2000@sohu.com 通讯地址:山西大同大学物理与科学学院 |
简介: 康永强,1979年5月生,男,博士,教授,硕士生导师,2014年7月博士毕业于西安交通大学,获得西安交通大学和中科院西安光机所联合培养博士学位。联系方式:18734651364。研究方向为微纳光学和超材料,以第一作者和通讯作者发表高水平学术论文30余篇。主持2018年山西省自然科学基金项目一项(6.5万元),主持高等学校科技创新基金一项(经费3万元),主持校内博士科研启动基金一项(10万元),主持大同市基础研究计划项目一项(3万元)。参与国家自然科学基金多项,作为骨干成员参与科技部国家重点研发计划子课题一项(经费40万元) | ||
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教育背景: 2010.9-2014.6 西安交通大学 光信息处理 博士 2004.9-2007.7 山西大学 理论物理 硕士 2000.9-2004.7 雁北师范学院 物理学 本科 | ||
最高学位:博士研究生 | ||
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工作简历: 2007.9-至今 山西大同大学 物理与电子科学学院 教师 | ||
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教授过的部分课程: 大学物理,光学,近代物理实验,信号与系统实验,Matlab 程序设计 | ||
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发表论文及专著: 发表论文 [1] Yongqiang Kang, Chunmin Zhang, Tingkui Mu, Peng Gao “Resonant modes and inter-well coupling in photonic double quantum well structures with single-negative materials,”Opt. Commun.285(24),4821-4824 (2012).(SCI收录) [2] Yongqiang Kang, Chunmin Zhang, “Resonant modes in photonic multiple quantum well structures with single-negative materials,” Optik 124(22),5430-5433 (2013) (SCI收录) [3] Yongqiang Kang, Chunmin Zhang,Peng Gao, Wenyi Ren, “Electromagnetic resonance tunneling in a single-negative sandwich structure,”Journal of Modern Optics, 60(13),1021-1026 (2013) (SCI收录) [4] Yongqiang Kang,Chunmin Zhang,et al “Wannier stark ladder in one-dimensional photonic crystal coupled microcavity containing indefinite metamaterials”Journal of Optics 42(4),335-340 (2013) (SCI收录) [5]康永强,杨春花,杨成全,等.单负材料组成光子晶体的多量子阱结构[J].发光学报, 2014(12):5. (Ei 收录) [6]康永强.单负材料组成一维光子晶体的反射相特性[J].激光与光电子学进展, 2015, 52(6):6.DOI:CNKI:SUN:JGDJ.0.2015-06-029. [7]康永强,王军,孙祝.负介电常数材料和负磁导率材料组成三明治结构的隧穿模[J].激光与光电子学进展, 2015, 52(8):6.DOI:JournalArticle/5b3bf55fc095d70f009b6c52. [8]康永强.损耗型单负材料双层结构的反射率及偏振度[J].发光学报, 2016, 037(003):353-357. (Ei 收录) [9]康永强,高鹏,刘红梅,等.含各向异性左手材料的一维Thue-Mores准周期结构的反射带隙[J].光子学报, 2015(3):6.DOI:10.3788/gzxb20154403.0319004. (Ei 收录) [10]Yongqiang Kang, Hongmei Liu, Wideband absorption in one dimensional photonic crystalwith graphene-based hyperbolic metamaterials, Superlattices and Microstructures, 2018,114,355-360. (SCI收录) [11] Yongqiang Kang, wenyi Ren, Qizhi Cao, Large tunable negative lateral shift from graphene-basedhyperbolic metamaterials backed by a dielectric, Superlattices and Microstructures, 2018,120,1-6. (SCI收录) [12] Yongqiang Kang, Yuanjiang Xiang,Chanyou Luo,Tunable enhanced Goos–Hänchen shift of light beam reflectedfrom graphene-based hyperbolic metamaterials, Applied Physics B, 2018,124,115. (SCI收录) [13] Yongqiang Kang, Hongmei Liu,Qizhi Cao, Wideband absorption in Thue–Morse quasiperiodic graphene-based hyperbolic metamaterials, Optical Engineering, 2018,57(3)037102. (SCI收录) [14] Yongqiang Kang, Hongmei Liu,Qizhi Cao, Enhanced absorption in heterostructure composed of graphene and a doped photonic crystal, OPTOELECTRONICS AND ADVANCED MATERIALS, 2018,12,665-669. (SCI收录) [15] Yongqiang Kang,The absorption properties in heterostructures with the hexagonal boron nitride crystals in the mid-infrared frequency range, Journal of Optical, 2018,1-4. (Ei收录) [16]康永强,各向异性左手材料一维光子晶体微腔的Warner-Stark 态,发光学报,2018,39(4)15-20.(Ei 收录) [17] Jun Wang, Yongqiang Kang, Cheng Wang, Junbao Wang, Cheng, Fu, Resistance to arc erosion characteristics of CuO skeleton-reinforcedAg-CuO contact materials, Journal of Alloys and Compounds, 2018,756,202-207. (SCI收录) [18] Jun Wang, Yongqiang Kang, The effects of annealing treatment on microstructure and contact resistance properties of cold sprayed Ag-SnO 2 coating, Journal of Alloys and Compounds, 2017,714,698-703. (SCI收录) [19] Yongqiang Kang, Peng Gao,Hongmei Liu, Jing Zhang, Large Tunable Lateral Shift from Guided Wave Surface Plasmon Resonance, Plasmonics, 2019, 14,1289-1293. (SCI, 收录) [20] Yongqiang Kang, Caixia Feng,Chanyou Luo, Large tunable lateral shift in prism coupling system containing a superconducting slab, Applied Physics B, 2020,126,108. (SCI, 收录) [21] Yongqiang Kang, Peng Gao, Jing Zhang, Wenyi Ren, Electrically Control Lateral Shift Owning to Guided-Wave Surface Plasmon Resonance with a Lithium Niobate Prism, Plasmonics, 2020,6, (SCI, 收录) [22] Hongmei Liu, Yongqiang Kang*, Tianhua Meng, Cuifeng Tian, High Photon Absorptivity of Quantum Dot Infrared Photodetectors Achieved by the Surface Plasmon Effect of Metal Nanohole Array, Nanoscale Research Letters, 2020,15,98 (SCI, 收录) [23]Yongqiang Kang, Jiangguo Zhang, Hongmei Liu, Yun He, Jing Zhang, Tunable dual-band metamaterial absorber at deep-subwavelength scale. Results in Physics, 2021. 27, 104525. (SCI, 收录) [24] Yongqiang Kang, Peng Gao, Hongmei Liu, A Polarization-insensitive Dual-band Plasmonic Metamaterial Absorber for a Sensor Application. Physica Scripta, 2021. 96, 065804. (SCI, 收录) [25] Yongqiang Kang, Jun wang, Hongmei Liu, A Dual‑Band Polarization Insensitive Metamaterial Absorber with a Single Square Metallic Patch for Sensing Application. Plasmonics, 2021. 96, 065804. (SCI, 收录) [26] Qiaowen Lina,, Hongmei Liua,, Yongqiang Kang, Investigation of far-field super-resolution imaging by microsphere-based optical microscopy, Optics and Lasers in Engineering, 2021,144, 106644. (SCI, 收录) [27]Yongqiang Kang, Haoyan Xi, Tianhua Meng, Qiaowen Lin, Lijuan Dong, Experimental demonstration of polarization and direction insensitive metamaterial analog of electromagnetically induced transparency by bright-bright mode coupling Results in Physics, 2022. 37: 105514. (SCI, 收录) [28]张建国 易早 康永强 等,A high-efficiency wideband tunable polarization conversion metasurface assisted by localized surface plasmon resonances,物理学报Acta Physica Sinica, 71, 128101 (2022) (SCI, 收录) [29] Hongmei Liu, Ruolong Zhang , Tianhua Meng , Yongqiang Kang *, Weidong Hu , and Guozhong Zhao, Absorption Enhancement in a Quantum Dot Thz Detector with a Metal-Semiconductor-Metal Structure, Coatings 2022, 12, 874. (SCI, 收录) [30]Changyou Luo , Yongqiang Kang , Xiaoyu Dai , and Yuanjiang Xiang, Coherent Control of the Goos-Hänchen Shift in a Cavity Containing a Five-Level Double-Ladder Atomic System, IEEE PHOTONICS JOURNAL, VOL. 15, NO. 6, DECEMBER 2023, 7900706. (SCI, 收录) [31] Caifen Sun, Yongqiang Kang*, Hongmei Liu, Qiaowen Lin, Realization of an Ultrathin, Ultrawideband Reflective Metamaterial Linear Polarization Converter, Plasmonics, 2024. (SCI, 收录) 专著 人工超材料复合结构中光的传输与调控,康永强, 中国原子能出版社,2019.6 | ||
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课题研究: 1)山西省自然科学基金“石墨烯基亚波长结构Goos-Hänchen位移的增强及可控性研究(201801D121071)” 项目负责人,经费5万元,已结题 2) 山西省高等学校科技创新项目“各向异性超材料复合结构的光速偏移效应及可控性研究(201900712)” 项目负责人,经费3万元,已结题 3)大同市基础研究项目“各向异性超材料的电磁特性研究(2017131)”,项目负责人,经费2万元,已结题 4)大同大学云冈专项,“高光谱云冈文物无损探测研究(2020YGZX007)”,项目负责人,经费2万元,在研 5)横向课题,抗反射增透膜的设计制备研究,项目负责人,经费1万元,在研 | ||
荣誉:2016-2018 年期间山西大同大学科学研究工作突出贡献先进个人三等奖 | ||
