刘 杰(Jie Liu)

主要经历
2015-2019年重庆理工大学 工学学士
2020年-今福建师范大学 工学硕士
主要研究方向
全息存储
光学系统
发表文章
Mingyong Chen, Zuoyu Zhang, Po Hu, Junchao Jin, Jinhong Li, Jie Liu, Xiao Lin* and Xiaodi Tan*, "Effect of thermal polymerization temperature and time of PQ/PMMA on the holographic data storage," SPIE Proceedings of Optics & Photonics 2022, No.12231-4, San Diego, California, USA (2022).
Zuoyu Zhang, Mingyong Chen, Po Hu, Junchao Jin, Jinhong Li, Jie Liu, Xiao Lin* and Xiaodi Tan*, "Investigating the relationship between thermal polymerization time and effective use time of holographic photopolymers," Optics & Photonics International Congress (OPIC2022), The 9th Optical Manipulation and Structured Materials Conference (OMC2022), OMC5-04, Pacifico Yokohama, Japan (2022).
Po Hu, Jinhong Li, Yuxin Chen, Jie Liu, Mingyong Chen, Xiao Lin, Xiaodi Tan*, "Anomalous polarization-dependent holographic performance of photopolymers induced by fullerene nanoparticles," SPIE Proceedings of Photonics Europe 2022, No.12151-25, Strasbourg, France (2022).
Po Hu+, Yuxin Chen+, Jinhong Li, Jinyu Wang, Jie Liu, Tianmin Wu*, Xiaodi Tan*, "Impact of fullerene on the holographic properties of PQ/PMMA photopolymer," Composites Science and Technology, Vol.221, 109335 (2022).
吴天敏,陈宇昕,胡坡,陈茜,李金泓,刘杰,谭小地*,“通过纳米掺杂增强光致聚合物材料偏振选择性,”中国光学学会全息与光信息处理专业委员会学术年会,兰州,甘肃,中国 (2021).
Po Hu, Yuxin Chen, Jinhong Li, Jie Liu, Tianmin Wu*, Xiaodi Tan*, “Enhancement of Holographic Property of PQ/PMMA Photopolymer via Doping Fullerene Nanoparticles,” 中国光学学会全息与光信息处理专业委员会学术年会,No.HOIC-2021-061,兰州,甘肃,中国 (2021).
刘杰,陈宇昕,胡坡,李金泓,吴天敏*,谭小地*,“引入纳米材料提高光聚合物的偏振全息性能,”中国光学学会全息与光信息处理专业委员会学术年会,No.HOIC-2021-010,兰州,甘肃,中国 (2021).
Jinhong Li, Po Hu, Haiyang Song, Yuxin Chen, Jie Liu, Xinyi Yuan, Jianan Li, Tianmin Wu* and Xiaodi Tan*, "Impact of co-photosensitizers on the holographic properties of photopolymer," AOMATT, Paper No.2101030025, Chengdu, China (2021).
Shujun Zheng, Lu Huang, Hongjie Liu, Jinhong Li, Jie Liu, Shenghui Ke, Yongkun Lin, Yuanying Zhang*, Zhiyun Huang and Xiaodi Tan*, "A new method for generating hybrid vector beam based on the polarization holography," AOMATT, Paper No.2101030030, Chengdu, China (2021).



This Page was written by Information Photonics Research Center (yhren@fjnu.edu.cn); at July 23, 2021.