Research Fields
Theoretical research on the interaction between femtosecond laser and optical thin film, research on damage of dielectric materials and metal materials induced by femtosecond laser, and research on high-quality ultra-short laser pulse output.
General information
Chen Ruiyi was born in Wenzhou, Zhejiang in 1994.
Main professional experiences
Undergraduate from September 2012 to June 2016, Zhejiang University of Science and Technology applied physics. Master's degree in Materials Science, University of Science and Technology of China from September 2016 to June 2017. Doctor: Materials Science, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, September 2017-June 2021. Postdoctoral students joined the laser base in the same year
Participated in 2 general projects of NSFC (11904376/U1630140) and 1 national key scientific research project of China (2018YEF0118000).
Academic achievements
[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] Zhang Yuhui, Wang Rouge, Chen Ruiyi, et al. Study on the performance of broadband high threshold low dispersion mirror [J]. China Laser, 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] Wang Rouge, Chen Ruiyi, et al. "Design Method of Broadband Low Dispersion Chirped Mirror", PublicationNo.: CN112666641A.
[14] Wang Rouge, Chen Ruiyi, et al. "Design Method of High Dispersion Mirror Film System", PublicationNo.: CN111123510A. [15] Wang Rouge, Chen Ruiyi, et al. "Double-center wavelength dispersive mirror pair and its preparation method", publication number: CN108254816A.
[16] Wang Rouge, Zhang Yuhui, Chen Ruiyi, et al. "Structure and design method of broadband high threshold composite dielectric low dispersion mirror",
[17] Wang Rouge, Zhang Yuhui, Chen Ruiyi, et al. "A Mid-infrared Broadband High Reflection Ultrafast Laser Film", PublicationNo.: CN111221063B.
[18] Wang Rouge, Zhang Yuhui, Chen Ruiyi, et al. "A microstructure low oscillation back coated chirped mirror and its preparation method". [19] Wang Rouge, Zhang Yuhui, Chen Ruiyi, et al. "A broadband high reflection high threshold low dispersion mirror and its design method".
[20] Wang Rouge, Zhang Yuhui, Chen Ruiyi, et al. "Composite Function Dispersion Mirror Structure", PublicationNo.: CN111722311A.
[21] Wang Rouge, Zhang Yuhui, Chen Ruiyi, et al. "A film structure with tunable refractive index and its preparation method", publication number: CN111999912A.
[22] Wang Rouge, Zhang Yuhui, Chen Ruiyi, et al. "Multi-parameter comprehensive optimization film system design method for improving the performance of ultrafast laser films".
[23] Wang Rouge, Zhang Yuhui, Chen Ruiyi, et al. "Time-domain dynamic electric field simulation method of thin film elements based on multi-wavelength effect".
[24] Wang Rouge, Wang Zhihao, Zhang Yuhui, Chen Ruiyi, et al. "Preparation Method of Space Laser Thin Film", PublicationNo.: CN112267098A.
