​陈瑞溢

研究方向 

飞秒激光与光学薄膜相互作用理论研究、飞秒激光诱导介质材料和金属材料损伤研究、高品质超强超短激光脉冲输出研究

基本介绍 

陈瑞溢 ，1994年出生，浙江温州人。

主要工作经历

本科 2012.09-2016.06 浙江科技学院 应用物理学

硕士 2016.09-2017.06 中国科学技术大学  材料学

博士 2017.09-2021.6  中国科学院上海光学精密机械研究所  材料学

博士后 同年入职激光基地

承担项目 

参与国家自然科学基金面上项目2项（11904376/U1630140）、中国国家重点科研项目1项（2018YEF0118000）

学术成果 

[1]CHEN R, WANG Y, GUO K, et al. Highly-Dispersive Mirrors With Advanced Group Delay Dispersion [J]. IEEE Photonics Technology Letters, 2020, 32(2): 113-6.

[2]CHEN R, WANG Y, GUO K, et al. Angle-adjustment-based tunable chirped mirrors with continuous dispersion compensation [J]. Optics Letters, 2019, 44(24): 6053-6.

[3]CHEN R, WANG Y, GUO K, et al. Design, fabrication and laser damage comparisons of low-dispersive mirrors; proceedings of the Pacific Rim Laser Damage 2019: Optical Materials for High Power Lasers, F, 2019 [C].

[4]CHEN R, WANG Y, SHAO J, et al. Novel low-dispersion mirror with broad bandwidth and high laser damage resistance [J]. Optics Letters, (Major revision)

[5]CHEN R, WANG Y, SHAO J, et al. High-damage-threshold chirped mirrors for next-generation ultrafast, high-power laser systems [J]. Optics Letters, (in review)

[6]张宇晖, 王胭脂, 陈瑞溢, et al. 宽带高阈值低色散镜的性能研究 [J]. 中国激光, 2020, 47(11): 1103001.

[7]ZHANG Y, WANG Y, HE H, CHEN R, et al. Effect of Electric Field Regulation on Laser Damage of Composite Low-Dispersion Mirrors [J]. Coatings, 2021, 11(1): 65.

[8]ZHANG Y, WANG Y, CHEN R, et al. Effect of interface on femtosecond laser damage of metal-dielectric low dispersion mirror [J]. Optics Express, 2021.

[9]GUO K, WANG Y, CHEN R, et al. Laser-induced layers peeling of sputtering coatings at 1064 nm wavelength [J]. Scientific Reports, 2021, 11(1).

[10]GUO K, WANG Y, CHEN R, et al. Effects of structural defects on laser-induced damage of 355-nm high-reflective coatings sputtered on etched substrates [J]. Optical Materials, 2019, 89(MAR.): 173-7.

[11]GUO K, WANG Y, CHEN R, et al. Effects of ion beam etching of fused silica substrates on the laser-induced damage properties of antireflection coatings at 355 nm [J]. Optical Materials, 2019, 90(APR.): 172-9.

[12]GUO K, WANG Y, CHEN R, et al. Research on the single and multiple pulse laser damage performance of UV anti-reflection coatings; proceedings of the Pacific Rim Laser Damage 2019: Optical Materials for High Power Lasers, F, 2019 [C].

[13]王胭脂，陈瑞溢，et al.  “宽带低色散啁啾镜的设计方法”，公开号：CN112666641A

[14]王胭脂，陈瑞溢，et al.  “高色散镜膜系的设计方法”，公开号：CN111123510A

[15]王胭脂，陈瑞溢，et al.  “双中心波长色散镜对及其制备方法”，公示号：CN108254816A

[16]王胭脂，张宇晖，陈瑞溢，et al. “宽带高阈值组合介质低色散镜结构及其设计方法”, 

[17]王胭脂，张宇晖，陈瑞溢，et al. “一种中红外宽带高反射超快激光薄膜”，公开号：CN111221063B

[18]王胭脂，张宇晖，陈瑞溢，et al. “一种微结构低振荡背部镀膜啁啾镜及其制备方法”， 

[19]王胭脂，张宇晖，陈瑞溢，et al. “一种宽带高反射高阈值低色散镜及其设计方法”，

[20]王胭脂，张宇晖，陈瑞溢，et al.  “复合功能色散镜结构”，公开号：CN111722311A

[21]王胭脂，张宇晖，陈瑞溢，et al.  “一种折射率可调谐薄膜结构及其制备方法”，公开号：CN111999912A

[22]王胭脂，张宇晖，陈瑞溢，et al. “提升超快激光薄膜性能的多参数综合优化膜系设计方法”

[23]王胭脂，张宇晖，陈瑞溢，et al. “基于多波长效应下的薄膜元件时域动态电场仿真方法”

[24]王胭脂，王志皓，张宇晖，陈瑞溢，et al. “空间激光薄膜制备方法”，公开号：CN112267098A