一. 国际期刊论文和国际会议 1) Chai, J., Jia, H., Wang, D., Liu, H, Chen, Q., and Xie, H., “A MEMS Based Fourier Transform Spectrometer and Its Scan Stability Study,” ECS Journal of Solid State Science and Technology, 2018, 7(7): Q3025-Q3031. 2) Chai, J., Jia, H, Dong, X, Huang, C., and Xie, H., “Trace Gas Detection Using a MEMS-Based Portable Fourier Transform Infrared Spectrometer,” Fourier Transform Spectroscopy. 2018. 3) Chai, J., Zhang, K., Xue, Y., Liu, W., and Zhao, G., “Review of MEMS Based Fourier Transform Spectrometers,” Micromachines, 2020, 11(2). 4) Chai, J., Liu, W., Zhang, J., Xie, K., Lu, Y., Li, C., Liu, P., Zhou, Q., Jiang. Z., and Zhao, G., “Influence of Aberrations on Modal Decomposition for LMA Fiber Laser Systems,” Frontiers in Physics, 2022, 9: 796666. 5) Chai, J., Liu, W., Wen, Y., Wang, X., Xie K., Zhou Q., Zhang, H., Zhang, J., Liu, P., Zhang, D., Lu, Y., Jiang, Z., and Zhao, G., “Dynamic Modal Characteristics of Transverse Mode Instabilities in Ytterbium-doped Fiber Laser Oscillator,” Frontiers in Physics, 2023, 11: 1181692. 6) Chai, J., Liu, W., Wang, X., Zhou Q., Xie, K., Wen, Y., Zhang, J., Liu, P., Zhang, H., Zhang, D., Jiang, Z., and Zhao, G., “High-speed Modal Analysis of Dynamic Modal Coupling in Fiber Laser Oscillator,” Frontiers in Physics, 2023, 11: 1146208. 7) Chai, J., Liu, W., Wang, X., Zhou Q., Zhang, J., Zhang, H., Liu, P., Lu, Y., Zhang, D., Jiang, Z., and Zhao, G. “Mitigating of Transverse Mode Instability in Fiber Laser Oscillator by Employing Direct Pump Modulation,” Frontiers in Physics, 2023 11: 1212811. 8) Chai, J., Liu, W., Wang, X., Zhou Q., Zhang, J., Zhang, H., Liu, P., Lu, Y., Zhang, D., Jiang, Z., and Zhao, G. “Influence of Pump Current Waveform on The Mitigation of Transverse Mode Instability in Fiber Laser Oscillator,” Micromachines, 2023,. 14(4): 864 9) Wen, Y., Chai, J., Wang P., Shi, C., Yang, B., Xi, X, Zhang H. and Wang X. “Investigation of High-Order-Mode Coupling Induced Transverse Mode Instability in Few-Mode Fiber Lasers,” Journal of Optics, Under Review. (共同第一作者) 10) Li, Z., Chai, J., Lu, Y., Zhang, J., Jiang, Z., Liu, W. “Mode Decomposition of A Few-mode Fiber with OAM Eigenmodes,” Proc. SPIE 12343, 2nd International Conference on Laser, Optics and Optoelectronic Technology, 1234322, (22 May 2022). 11) Wang N., Zhang K., Chai J., Jia H., Xu T. “Folded Thermoelectric Cooling Structure with Bi 2 Te 3-Based Thin-Film Superlattices,”. ECS Journal of Solid State Science and Technology, 2018, 7(8): Q136-Q141. 12) Jia, C., Jia, H., Ning, W., Chai, J., Xie, J. “Theoretical Analysis of A 750-nm Bandwidth Hollow-core Ring Photonic Crystal Fiber with A Graded Structure for Transporting 38 Orbital Angular Momentum Modes”. IEEE Access, 2018, 6: 20291-20297. 13) Zhou, Q., Lu, Y., Li, C., Chai, J., Zhang, D., Liu, P., Zhang, J., Jiang, Z. and Liu, W., “Transmission Matrix-inspired Optimization for Mode Control in A 6×1Photonic Lantern-based Fiber Laser,” Photonics, 2023, 10(4): 390. 14) Li, C., Liu, W.,Lu, Y.,Chai, J., Zhou, Q. Jiang. Z., Zhang, J., “Novel Mode Control Method Based on Transmission Matrix Characteristics of A Photonic Lantern,” Proc. SPIE 12057, 12th International Conference on Information Optics and Photonics, 120574A (1 November 2021). 15) Chen,T., Liu, W., Xie, K., Chai, J., Yang, H., Zhou, Q., Yan, B., “Measurements on LP Modes of The Photonic Lantern,” Proc. SPIE 11455, 6th Symposium on Novel Optoelectronic Detection Technology and Applications, 114555G (17 April 2020). 16) Meng, X., Li, F., Yang, B., Ye, Y., Chai, J., Xi, X., Wang, P., Wu, H., Shi, C., Zhang H., Wang, X., Han, K., “A 4.8-kW High Efficiency 1050-nm Monolithic Fiber Laser Amplifier Employing A Pump-sharing Structure,” Frontiers in Physics, 2023 11: 1255125. 17) Shen, X., Jia, H., Jiang, S., Lei, Y., Chai, J., Cao, J. “Method Based on Optical Rotatory Dispersion for Determining Wavelength”. Optik-International Journal for Light and Electron Optics, 2017, 148. 18) Lu, Y., Jiang, Z., Xiao, H., Chen, Z., Jiang, M., Chai, J., Yang, H., Ding, L., Zhang, D., Zhang, J., Zhou, Q., Liu, W. “Mitigating Mode Instabilities by Controllable Mode Combinations Excitation with A Photonic Lantern” , Frontiers in Physics, 2023, 11: 1198092. 19) Xu, X., Jia, H., Yu, L., Jia, C., Liu, G., Chai, J., Peng, Y., Xie, J. “Theoretical Proposal of A Low-loss Wide-bandwidth Silicon Photonic Crystal Fiber for Supporting 30 Orbital Angular Momentum Modes,” Plos One, 2017, 12(12), e0189660. 20) Lu, Y., Liu, W., Chen, Z., Jiang, M., Zhou, Q., Zhang, J., Li, C., Chai, J., Jiang, Z., “Spatial Mode Control Based on Novel Photonic Lanterns,” Optics Express, 2021, 29(25). 21) Lu, Y., Chen, Z., Liu, W., Jiang, M., Yang, J., Zhou, Q., Zhang, J., Chai, J., Jiang, Z., “Stable Single Transverse Mode Excitation in 50 μm Core Fiber Using a Photonic-lantern-based Adaptive Control System,” Optics Express, 2022, 30(13). 22) Lu, Y., Jiang, Z., Chen, Z., Jiang, M., Yang, J., Zhou, Q., Zhang J., Zhang D., Chai, J., Yang, H., Liu, W. “High-Power Orbital Angular Momentum Beam Generation Using Adaptive Control System Based on Mode Selective Photonic Lantern,”Journal of Lightwave Technology, 2023, 41(17): 5607-5613. 一. 国内期刊论文 1) 张青青, 沈晓芳, 柴俊宇, 谢会开, “基于MEMS微镜技术的近红外光谱检测奶粉中的三聚氰胺,” 食品工业,2018, 4(12). 2) 张青青, 沈晓芳, 谢会开, 王东琳, 柴俊宇, “基于MEMS技术的漫反射近红外光谱仪鉴别掺伪珍珠粉,” 食品科学技术,2018. |
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