高永锋 ,男,江苏盐城人,教授,硕士生导师。2005年6月在苏州大学信息光学工程研究所获光学工程硕士学位,2013年12月在江苏大学机械工程学院获博士学位,2005年至今在江苏大学机械工程学院任教,主讲本科生《电磁场与电磁波》、《集成光电子学》、《光电子技术》、《导波光学》、《光电子器件制备与测试技术实验》和研究生《高等光学》等课程。近年来以第一/通信作者先后在SCI、EI等源刊公开发表论文40余篇,第一发明人申请发明专利16件,授权9件,专利成果转化6件,主持在研省部级项目2项,参与结题国家重点基础研究发展计划(973计划)课题项目1项,国家自然科学基金项目6项和省部级项目3项,主持结题市厅级项目4项,横向课题项目2项。2013年获镇江市科技论文一等奖,2015、2018、2022和2023年获江苏大学“优秀学业导师”称号,2022年获第三届江苏大学“十佳优秀研究生导师”称号。指导研究生获江苏省优秀硕士论文3篇和江苏大学优秀硕士学位论文4篇,2人获研究生国家奖学金,6名毕业硕士生分别在上海交通大学、南京大学(2人)、北京理工大学、天津大学、西北工业大学攻读博士学位,受邀Advanced Materials、Advanced Photonics Nexus、ACS Applied Materials & Interfaces、Optics Letters、Physical Chemistry Chemical Physics、Optics & Laser Technology,Journal of Applied Physics,Advanced Quantum Technologies、Optics Communications、Optical Materials、Physica B: Physics of Condensed Matter、International Journal of Physics Research and Applications、Journal of Physics: Condensed Matter等20多个国际期刊审稿人。目前,主要从事拓扑光学、超材料、光子晶体理论及应用、光通信器件设计与制备技术、成像光学和非成像光学等方向的研究。
第一/通信作者代表期刊论文
1.Yong-Feng Gao*, Ming-Yang Sun, Tian-Hao Yao, Sheng-Yi Li, Shu-Yang Zhou, Ming Yang, and Qi-Chao Hou. Realization of multifunctional optical devices based on valley topological photonic crystals with triangular lattice. Optics Communications. 2025, 579:131549. (SCI, 三区, IF 2.13)
2.Gao, Yong-Feng*, Ming Yang, Zhi-Chen Chen, Yue He, Yi-Han He, Shu-Yang Zhou, and Ming-Yang Sun. Topological light routing and displaying based on square lattice photonic crystals. Optics Communications. 2024, 570:130889. (SCI, 三区, IF 2.13)
3.Yong-Feng Gao*, Yue He, Subinuer Rouzi, Yi‐Jun Fang, Yi‐Han He, Ming Yang, and Qi‐Chao Hou. Multifunctional Coupling Systems of Topological Edge Waveguide and Corner State Cavity based on Honeycomb Photonic Crystals[J]. Advanced Quantum Technologies, 2024,7(9):2400073. (SCI, 二区, IF 4.4)
4.Yong-Feng Gao*, Yi-Han He, Yue Li, Subinuer Rouzi, Meng-Cheng Jin, Yun He, Shu-Yang Zhou. Topological Waveguide-Cavity Coupling System Based on Valley Photonic Crystals[J]. Optics & Laser Technology, 2024, 175:110799. (SCI, 二区, IF 5.0,Top期刊)
5.Yong-Feng Gao*, Shu-Yang Zhou, Yue Li, Ji-Ning Pan, Yue He, Ming Yang, Ming-Yang Sun. All-Optical Logic Gates Based on Topological Edge and Corner States in Two-Dimensional Photonic Crystals with Square Dielectric Columns[J]. Journal of Physics D: Applied Physics, 2024,57(13):135305. (SCI, 三区, IF 3.4)
6.Yong-Feng Gao*, Yue He, Jing-Qi Si, Subinuer Rouzi, Meng-Cheng Jin, Yi-Han He, Ming Yang. Waveguide-cavity Coupling System based on Topological Edge States and Corner States in Kagome Photonic Crystals[J]. Advanced Quantum Technologies, 2024, 7(1):2300265. (SCI, 二区, IF 4.4)
7.Yong-Feng Gao*, Xiao-Fei Qi, Zhi-Guo Yan, Subinuer Rouzi, Yue He, Yi-Han He, Ming-Yang Sun. Coupled waveguide-cavity system based on higher-order topological states in square lattice photonic crystals[J]. Applied Physics B, 2023, 129(10):156. (SCI, 三区, IF 2.1)
8.Yong-Feng Gao* Yi-Han He Ayijiamal Maimaiti Meng-Cheng Jin Yue He Xiao-Fei Qi. Manipulation of coupling between topological edge state and corner state in photonic crystals[J]. Optics & Laser Technology, 2022, 155:108387. (SCI, 二区, IF 5.0, Top期刊)
9.Yong-Feng Gao*, Meng-Cheng Jin, Qiang Zhou, Qi-chao Hou, Jia-Ping Sun, Zhen Jiang, He Song, Shen, Bo-Wen. Non-spin-mixing defect modes in the split-ring dielectric photonic crystals[J]. Optics Communications, 2021, 492:126963. (SCI, 三区, IF 2.13)
10.Yongfeng Gao; Jia-Ping Sun; Nan Xu; Zhen Jiang; Qi-Chao Hou; He Song; Meng-Cheng Jin; Chao Zhang. Manipulation of topological beam splitter based on honeycomb photonic crystals[J]. Optics Communications,2021, 483:126646. (SCI, 三区, IF 2.13)
11.Yongfeng Gao*, He Song, Jieshuai Geng, Mengcheng Jin, Ming-Yang Chen, JiaPing Sun, and Zhen Jiang. Y-shaped beam splitter with topologically protected defect waveguide[J].Optical Engineering, 2021, 60(5):057105. (SCI,四区, IF 1.084)
12.Yong-feng Gao*, Zhen Jiang, Shen-yi Liu, Quan-long Ma, Jia-ping Sun, He Song, Mehdi Zamani. Topologically protected defect modes in all-dielectric photonic crystals[J]. Journal of Physics D: Applied Physics, 2020, 53(36):365104. (SCI, 三区, IF 3.4)
13.Y Gao*, L He, X Xu, J Sun, Z Jiang, W Bai. Achievement of unidirectional air waveguide with extra-broad operation bandwidth in magneto-optical photonic crystals with a triangle lattice[J]. Journal of Magnetism and Magnetic Materials, 2020, 496: 165921. (SCI, 二区, IF 2.83)
14.Y Gao*, L He, Z Jiang, JP Sun, QL Ma. Unidirectional helical edge states for all-dielectric topological photonic crystals[J]. Photonic network communication, 2020, 39(2):135-142. (SCI, 四区, IF 1.38)
15.Y Gao*, L He, Z Jiang. Investigation of coupling effect between a unidirectional air waveguide and two cavities with one-way rotating state[J]. Optica Applicata, 2020,50(1):49-59. (SCI, 四区, IF 1.09)
16.Y Gao*, L Wang, Y Feng, L He, Q Wang. Transmission Properties of One-Dimensional Magneto-Optical Photonic Crystals Containing Graphene Nanolayers[J]. Journal of Superconductivity and Novel Magnetism, 2019, 32(4): 1049-1055. (SCI, 四区, IF 1.12)
17.Y Gao*, Z Jiang, LL Zhang, L He,Jian Zhao. Unidirectional propagation of coupled edge states in sandwich topological photonic crystals[J]. Journal of Applied Physics, 2018, 124(21): 213107. (SCI, 三区, IF 2.33)
18.Y Gao, Y Feng, L Zhou, L Petti, Z Wang, J Zhou*, S Xie, J Chen, Y Qing. Ultrasensitive SERS-Based Immunoassay of Tumor Marker in Serum Using Au–Ag Alloy Nanoparticles and Ag/AgBr Hybrid Nanostructure[J]. Nano, 2018, 13(01): 1850001-1-12.(SCI, 四区, IF 1.06)
19.Y Gao*, M Zhou, W Zhang. Novel dispersion properties of one-dimensional photonic crystals containing a defect made of twin prisms[J]. Journal of Russian Laser Research, 2012, 33(3): 211-216. (SCI, 四区, IF 0.74)
20.Gao Yongfeng, Zhao Qionghua, Xu Xiaofang, Ren Naifei, Zhou Ming, Zhang Dingyue. Research on Reflection Properties of Silicon Based Solar Cells with Parabolic Cone Array Structure[J]. Chinese Journal of Lasers, 2015, 42(8):0808004.
21.Yong-Feng Gao*, Ming Yang, Meng-Cheng Jin, Yue He, Shu-Yang Zhou, Yi-Han He, Yun Zhang. Topological Coupled Waveguide-cavity System Based on Alternate Arrangement of Photonic Crystals [J]. Advanced Quantum Technologies, Under Review, 2025
22.Yue He, Yong-Feng Gao*, Ming Yang, Zhi-Guo Yan, Yi-Han He, Xiao-Fei Qi, Zi-Rui Li. Manipulation of Topological Edge and Corner States in Photonic Kagome Crystals through Different Combinations[J]. Optical Materials, 2023, 140:113830. (SCI, 三区, IF 3.754)
23.Yi-Han He, Yong-Feng Gao*, Yue He, Xiao-Fei Qi, Jing-Qi Si, Ming Yang, Shu-Yang Zhou. Realization of edge and corner states in photonic crystals with kagome lattices through topological insulator generators[J]. Optics & Laser Technology, 2023, 161:109196. (SCI, 二区, IF 5.0, Top期刊)
24.Meng-Cheng Jin, Yong-Feng Gao*, Hao-Zhe Lin, Yi-Han He, Ming-Yang Chen. Corner states in second-order two-dimensional topological photonic crystals with reversed materials[J]. PHYSICAL REVIEW A,2022,106:013510. (SCI二区, IF 2.93, Nature Index期刊)
25.Yi-Han He, Yong-Feng Gao*, Hao-zhe Lin, Meng-Cheng Jin, Yue He, Xiao-Fei Qi. Topological edge and corner states based on the transformation and combination of photonic crystals with square lattice[J]. Optics Communications, 2022, 512:128038. (SCI, 三区, IF 2.13)
26.Meng-Cheng Jin, Yong-Feng Gao*, Guang-Yao Huang, Yi-Han He, Jia-Ping Sun, He Song. Manipulation of coupling between waveguide and ring resonator in topological photonic crystals[J]. Physica E: Low-dimensional Systems and Nanostructures, 2022, 136:115013. (SCI, 二区, IF 3.382)
27.Z Jiang, Y Gao*, L He, H Song, J Zhou, R Zhu. Helical edge states of topological photonic crystals with line defects[J]. Applied optics, 2019, 58(9): 2294-2299.(SCI, 三区, IF 2.15)
28.Meng-Cheng Jin, Yong-Feng Gao*,Quan-Long Ma,Wei Zhang, He Song, Jia-Ping Sun, Zhen Jiang. Regularly multiple double Dirac cones in photonic bands and topological transitions of all-dielectric photonic crystals[J]. Physical Review Materials, 2021,5(2):024204. (SCI, 二区, IF 3.34)
29.Z Jiang, Y Gao*, L He, J Sun, H Song. Manipulation of pseudo-spin guiding and flat bands for topological edge states[J]. Physical Chemistry Chemical Physics, 2019, 21(21): 11367-11375. (SCI,二区, IF 3.69)
30.L He, Y Gao*, Z Jiang, L Wang, J Zhou, X Xu. A unidirectional air waveguide basing on coupling of two self-guiding edge modes[J]. Optics & Laser Technology, 2018, 108: 265-272. (SCI, 二区, IF5.0, Top期刊)
第一发明人申请发明专利
1.高永锋,杨明,李跃,贺玥,贺奕涵,周舒扬,孙铭阳,李凯,林昊哲,沙晨阳. 一种用于特定频率信号的拓扑波导-腔耦合谐振数形显示器件.申请日:2024-6-21,专利号:202410810207.9.
2.高永锋,贺玥,陈智宸,贺奕涵,杨明,潘吉宁,周舒扬,孙铭阳,孙家锟. 一种能实现信号控制的拓扑光波导-腔耦合器件.申请日:2024-5-29,专利号:202410680277.7.
3.高永锋,周舒扬,严志国,李跃贺玥,漆晓飞,杨明,孙铭阳,沙辰阳. 一种光子晶体结构及能够实现与/或逻辑门的拓扑光波导器件.申请日:2023-12-14,专利号:202311719510.X
4.高永锋,贺玥,严志国,阿布都西克尔·阿布都克热木,贺奕涵,漆晓飞,周舒扬,杨明,孙铭阳, 李永安. 一种能够实现分频和/或分束的拓扑光波导器件及其应用. 申请日:2023-3-6,专利号:202310204348.1
5.高永锋,贺奕涵,贺玥,贾帅奇,金梦成,阿布都西克尔·阿布都克热木,史天骏,漆晓飞. 一种能够实现波导-腔耦合的拓扑光通信谐振器件.申请日:2022-4-25,专利号: ZL202210438529.6(授权)转让
6.高永锋,贺奕涵,陈卫国,黄光耀,金梦成,林昊哲,贺玥,漆晓飞,耿帅杰. 一种支持一维拓扑边界态光波导和/或零维拓扑角态光局域的拓扑光通信器件.申请日:2022-2-9,专利号:ZL202210122186.2(授权)转让
7.高永锋,金梦成, 阿依加玛丽·麦麦提, 贺奕涵, 贺玥, 漆晓飞, 黄光耀, 林昊哲. 一种能够实现拓扑边界态和/或零维角态的拓扑光通信器件.申请日:2021-11-2,授权日:2022-7-22,专利号:ZL202111296850.7(授权)转让
8.高永锋,宋荷, 黄光耀,金梦成,孙佳平,贺奕涵,钱凯,阿依加玛丽·麦麦提. 一种具有拓扑保护的光波导器件、分束器及波分器. 申请日:2021-4-26,授权日:2022-6-3,专利号:ZL202110454886.7(授权)2级
9.高永锋,金梦成,周强,宋荷,孙佳平,贺奕涵,沈博闻,林昊哲. 一种新型拓扑光子晶体结构及光波导.申请日:2020-12-11, 授权日:2022-6-14,专利号:ZL202011436792.9(授权)1级 转让
10.高永锋,姜震,周凯,何柳,孙佳平,宋荷,王力锐 一种基于蜂窝状结构的光子晶体慢光波导. 申请日:2019-4-30,授权日:2020-11-3,专利号:ZL201910361481.1(授权)转让
11.高永锋,姜震,刘珅驿; 孙佳平,宋荷,何柳,马全龙,徐浩. 实现光子晶体拓扑边界态光子自旋引导机制的光波导. 申请日:2019-4-30,授权日:2020-11-3,专利号:ZL201910361519.5(授权)转让
12.高永锋,许孝芳,赵琼华,熊剑鸣,张丁月. 一种具有非互易性特性的缺陷磁光子晶体及用途. 申请日:2014-11-11,授权日:2017-8-4,专利号:ZL201410633382.1 (授权)
13.高永锋,赵琼华,顾葆华,王俊贤,许孝芳,陈志勇. 一种降低太阳能电池表面反射率的结构. 申请日:2015-2-2, 授权日:2017-1-11,专利号:ZL201510054295.5(授权)转让
14.高永锋,王启汶,刘鎏,阿不都西库尔·阿不来提,王立松,何柳,冯元会. 一种道路照明用马鞍形LED透镜及LED光源. 申请日:2017-5-23,申请号:201710368557.4
15.高永锋,张变,王启汶,王立松,熊鹏,何柳,朱佳巍,徐浩. 微型虹膜识别镜头. 申请日:2016-12-9,申请号:201611129099.0
16.高永锋,许孝芳. 一维光子晶体双棱镜缺陷色散分离器. 申请日:2012-5-9,申请号:201210267768.6
获奖荣誉
2024年江苏省优秀学术学位硕士学位论文指导老师
2023年江苏省优秀学术学位硕士学位论文指导老师
2023年江苏大学优秀学术学位硕士学位论文指导老师
2022年获第三届江苏大学“十佳优秀研究生导师”称号
2022.7年入选江苏省科技副总项目
2022年江苏大学优秀学术学位硕士学位论文指导老师
2021年江苏省优秀专业学位硕士学位论文指导老师
2020年江苏大学优秀专业学位硕士学位论文指导老师
2019年江苏大学优秀学术学位硕士学位论文指导老师
2024年 江苏大学“优秀学业导师”称号
2023年 江苏大学“优秀学业导师”称号
2022年 江苏大学“优秀学业导师”称号
2018年江苏大学“优秀学业导师”称号
2015年江苏大学“优秀学业导师”称号
高永锋(3/12)高灵敏度光子晶体传感芯片设计、制造及封装关键技术与应用, 中国商业联合会技术奖, 三等奖,2020
高永锋(1/3), 《双棱镜缺陷层一维光子晶体的新型色散特性研究》, 镇江市人民政府, 镇江市优秀科技论文奖, 一等奖, 2013
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