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石梦悦

Mengyue shi

研究方向：高功率光纤激光器精细光谱调控
助理研究员（ 2023.01 —— 至今）

办公地址：上海市东川路800号交通大学电信群楼5-501室
邮政编码：200240
电子邮箱：sjtusmy@sjtu.edu.cn

个人简介

上海交通大学，区域光纤通信网与新型光通信系统国家重点实验室助理研究员，主要研究方向为光信号处理、光谱精细调控与测量，高功率窄线宽连续光纤激光器，光纤中的受激布里渊散射效应及微波光子学应用。在Journal of Lightwave Technology，Optics Express，IEEE Photonics Technology Letters等重要期刊以及光纤通信顶级国际会议Optical Fiber Communication Conference（OFC）等发表论文十余篇，曾荣获上海交通大学“优秀博士毕业生”荣誉称号。作为Optics Express，Applied Optics, Journal of Quantum Electronics等期刊审稿人从事多年审稿工作，审阅相关领域期刊、会议论文七十余篇，主持国家自然科学基金青年项目，中国博士后面上基金，参与国家重大仪器专项、国家自然科学基金面上项目、优秀青年基金，广东省重点研发计划等多项重点项目。

教育与工作经历

2023.1-至今，上海交通大学，电子信息与电气工程学院，助理研究员

2020.11-2022.12，上海交通大学，电子信息与电气工程学院，博士后

2020.4-2020.10，中国空间技术研究院通信与导航卫星总体部，通信卫星总体室，有效载荷总体设计师，助理研究员

2014.9-2020.3，上海交通大学，电子信息与电气工程学院，工学博士学位

2010.9-2014.6，电子科技大学，光电信息学院，工学学士学位

Journals:

[1]Mengyue Shi,Zhangli Wu, Jie Li, Yong Wu, Minghai Yu, Yinhong Sun, Weisheng Hu, and Lilin Yi, “High-power narrow-linewidth fiber lasers using optical spectrum broadening based on high-orderphase modulation of inversion probability-tuning sequence”,Optics Express,vol.30, no.6, pp.8448-8460, 2022.

[2] Minghai Yu,Mengyue Shi, Weisheng Hu, and Lilin Yi, “Real-time dual-pulse anti-interference lidar system based on chaotic pulse position modulation”,Photonics Technology Letters, vol. 33, no. 15, pp 757-760, 2021.

[3]Mengyue Shi, Lilin Yi, Yingying Wang, Weisheng Hu, “Brillouin-based dual-frequency microwave signals generation using polarization multiplexing modulation”,Optics Express, vol. 27, no. 17, pp.24847-24856, 2019.

[4]Mengyue Shi, Lilin Yi, and Weisheng Hu, “High-Resolution Brillouin Optoelectronic OscillatorUsing High-Order Sideband Injection-Locking”,Photonics Technology Letters, vol. 31, no. 7, pp. 513-516, 2019.

[5]Mengyue Shi, Lilin Yi, Wei Wei, Weisheng Hu, “Widely tunable optoelectronic oscillator with ultra-high tuning resolution based on stimulated Brillouin scattering”,Optics Express, vol. 26, no. 13, pp. 16113-16124, 2018.

[6]Mengyue Shi, Lilin Yi, Wei Wei, Guoqing Pu, Weisheng Hu, "System performance optimization of frequency-sweeping pump based rectangular Brillouin optical filter," inIEEE Photonics Journals, vol.9, no.1, pp 1-8, 2017.

[7] Lilin Yi, Wei Wei, Yves Jaouen,Mengyue Shi, Bing Han, Michel Morvan, Weisheng Hu, "Polarization-independent rectangular microwave photonic filter based on stimulated Brillouin scattering (Invited)," inIEEE/OSA Journal of Lightwave Technology, vol. 34, no.2, pp.669-675, 2016.

[8] Lilin Yi, Wei Wei,Mengyue Shi, Yves Jaouen, Weisheng Hu, "Design and performance evaluation of narrowband rectangular optical filter based on stimulated Brillouin scattering (Invited)," inPhotonic Network Communications, vol.31, no.2, pp.336-344, 2016.

[9] Mengyue Shi, Jie Li, Yong Wu, Zhiwei Fang, Jiajin Wang, Huan Mu, Weisheng Hu, and Lilin Yi "High SBS Threshold Fiber Laser with Spectral Management using Binarized Multi-Tone Signal Modulation," in IEEE Photonics Technology Letters, 2023, doi: 10.1109/LPT.2023.3249209.

[10] 石梦悦，吴勇，李洁，方志伟，王嘉琎，慕桓，义理林“基于光谱展宽的高功率窄线宽激光器研究进展”，激光与光电子学进展，2023.

[11] Jie Li, Mengyue Shi, Yong Wu, Zhiwei Fang, Jiajin Wang, Huan Mu, Weisheng Hu, and Lilin Yi, “Spectral broadening scheme for suppressing SBS effects based on time-domain optimized chirp-like signals”, Optics Express, vol. 31, no. 5, pp. 8610-8621, 2023.

[12] Mengyue Shi, Minghai Yu, Zhiwei Fang, Yong Wu, Jie Li, Jiajin Wang, Huan Mu, Weisheng Hu, and Lilin Yi, "Real-Time Definite Sequence Modulation Based Spectral Broadening Scheme for High-Power Narrow-Linewidth Fiber Laser," Journal of Lightwave Technology, vol. 40, no. 18, pp. 6222-6229, 2022.

Conferences:

[1] Jie Li,Mengyue Shi, Yong Wu, Zhangli Wu, Weisheng Hu, and Lilin Yi, “A flat-top seed source using binarized multi-frequency signals modulation for high-power fiber lasers”, in 27th OptoElectronics and Communications Conference (OECC 2022), paper. C000048, 2022.

[2] Zhangli Wu,Mengyue Shi, Jie Li, Yong Wu, Weisheng Hu and Lilin Yi,“Analysis of Self-pulse Effect in High Power Fiber Lasers Based on Seed Source Broadening with High-order Phase Modulation”, in Advanced Fiber Laser (AFL 2021), paper. paper. NDT100-225, 2021.

[3]Mengyue Shi, Lilin Yi, Weisheng Hu, “Long-term ultra-stable Brillouin optoelectronic oscillator with a feedback loop”, in Asia Communications and Photonics Conference (ACP 2018), paper. 191, 2018.

[4]Mengyue Shi, Lilin Yi, Weisheng Hu, “SBS-based OEO with high tuning resolution and wide tuning range by selecting different-order phase modulation sideband as pump”, in Optical Fiber Communication Conference (OFC 2018), paper. M1H.4, 2018.

[5]Mengyue Shi, Lilin Yi, Wei Wei, Guoqing Pu, Weisheng Hu, “Microwave photonic filter with variable selectivity and shape by SBS and dispersion-induced phase mismatching”, in OptoElectronics and Communications Conference (OECC 2017), paper. s1406, 2017.

[6] Simon Rommel, Lilin Yi,Mengyue Shi, Idelfonso Tafur Monroy, and Juan Jose Vegas Olmos, "Demonstration of 4Gbit/s Duobinary Ka-Band Hybrid Photonic-Wireless Transmission," in Asia Communications and Photonics Conference (ACP 2015), paper. ASu1J.2, 2015.

[7] Lilin Yi, Wei Wei, Yves Jaouen,Mengyue Shiand Weisheng Hu, "Rectangular microwave photonic filter based on stimulated Brillouin scattering in fiber," in 14th International Conference on Optical Communications and Networks (ICOCN 2015), 2015.

Patents：

[1]石梦悦，义理林，李洁，吴勇，“高功率光纤激光器种子源光谱展宽优化方法及系统”，专利号：CN202210417157.9。

[2] 义理林，石梦悦，虞名海，方志伟，李洁，慕桓，“一种谱型可灵活设计的集成化实时光谱展宽模块”，专利号：CN202210088474.0。

[3]石梦悦，义理林，吴章立，“一种布里渊微波光子滤波器带宽扩展方法”，专利号：CN202111388157.2。

[4]石梦悦，义理林，吴章立，“相位调制提升窄带布里渊滤波器抑制比和带宽方法及系统”，专利号：CN202111322208.1。

[5] 义理林，石梦悦，吴章立，李洁，吴勇，“基于光谱控制的光谱展宽和受激布里渊散射效应抑制方法和系统”专利号：CN202111264927.2。

[6] 义理林，石梦悦，吴章立，李洁，慕桓，“种子源光谱展宽方法、装置及高功率连续光纤激光器系统”，专利号：CN202111117160.0。

[7] 义理林，石梦悦，李洁，吴章立，吴勇，“基于二值化多频信号驱动的种子源光谱展宽系统及方法”，专利号：CN202111264892.2。

[8] 义理林，石梦悦，李洁，吴章立，慕桓，“种子源光谱展宽方法、装置及高功率连续光纤激光系统”，专利号：CN202111117156.4。

[9]石梦悦，义理林，胡海洋，“一种基于受激布里渊散射效应的高稳定微波信号生成方法”，授权号：201811636020.2。

[10]义理林，石梦悦，吴勇，“一种激光种子源光谱展宽测试装置”，专利号：202221409571.7。

参与项目

参与国家重点实验室开放课题“高精度可编程光滤波器设计及应用”
华为技术有限公司，光波长注入的高速调制信道补偿算法，项目号YBN2020035172，起止时间2020.5-2021.5，金额59万元。
国家重点研发计划项目，超宽带超高速单模光纤通信关键技术与实验验证，项目号2023YFB2905400，起止时间2023.12-2016.11，金额3600万元。

了解其他成员

蒲国庆

Gguoqing pu

研究方向：智能超快激光器

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