上海交通大学电子工程系

郭宇耀助理研究员

地址：上海市闵行区东川路800号

电话：18501992414

邮箱：guoyuyao1992@sjtu.edu.cn

研究中心：光子信号处理器件、系统与应用课题组

个人简介

郭宇耀，博士，上海交通大学助理研究员。研究方向为硅基光电子集成技术和硅基III-V族混合腔激光器，作为研究骨干参与多项自然科学基金委、科技部、JKW 等纵向课题和华为技术有限公司等横向课题的研究工作。在APL Photonics等SCI期刊和OFC、CLEO等国际会议发表论文20多篇，申请发明专利近10项。

研究领域

光电子器件

研究方向

硅基光电子集成
硅基III-V族混合腔激光器

科研项目

[1] 华为技术有限公司：“集成化FMCW激光雷达关键技术”，主要负责硅/氮化硅外腔激光器设计、器件封装、系统测试，基于外腔激光器和自注入锁定激光器产生FMCW信号，经费293万元，起止日期：2019.07-2021.06，已结题；

[2] 中国电子科技集团第27所：“片上可调谐激光发射技术”，主要负责外腔激光器设计、封装、测试，经费110万元，起止日期：2020.01-2020.12，已结题；

[3] 国家自然科学基金重大项目子课题“高线性度硅基调频连续波光发射芯片研制”，主要负责硅基激光器部分方案设计，经费450万元，起止日期：2021.01-2025.12，在研；

[4] 科技部重点研发项目子课题：“激光器阵列片上集成与复用器的研究”，负责O波段多通道硅基混合集成激光器子课题，集成四通道RSOA阵列产生四路外腔激光，经费300万元，起止日期：2020.01-2021.12，已结题；

[5] 军科委173项目子课题：“片上XXX集成技术”，主要负责高功率阵列外腔激光器研发和系统封装，经费125万元，起止日期：2022.01-2023.12，在研。

重要论文

[1] Y. Guo, X. Li, M. Jin, L. Lu, J. Xie, J. Chen, and L. Zhou, "Hybrid integrated external cavity laser with a 172-nm tuning range," APL Photonics, vol. 7, no. 6, 2022, Art. no. 066101.

[2] Y. Guo, R. Zhao, G. Zhou, L. Lu, A. Stroganov, M. S. Nisar, J. Chen, and L. Zhou, "Thermally tuned high-performance III-V/Si₃N₄ external cavity laser," IEEE Photon. J., vol. 13, no. 2, 2021, Art no. 1500813.

[3] W. Xu, Y. Guo, X. Li, C. Liu, L. Lu, J. Chen, and L. Zhou, "Fully integrated solid-state LiDAR transmitter on a multi-layer silicon-nitride-on-silicon photonic platform," J. Lightwave Technol., vol. 41, no. 3, pp. 832-840, 2022. （共一）

[4] Y. Guo, X. Li, M. Jin, L. Lu, J. Xie, J. Chen, and L. Zhou, "III-V/Si hybrid external-cavity laser utilizing TM mode in the passive photonic circuit", in OptoElectronics and Communications Conference, (IEEE, 2022), paper TuD2-6.

[5] Y. Guo, X. Li, M. Jin, C. Liu, W. Xu, L. Lu, J. Xie, J. Chen, and L. Zhou, "High-performance III-V/Si3N4 O-band external cavity tunable laser", in 2022 Conference on Lasers and Electro-Optics (CLEO), (IEEE, 2022), paper SM2P.5.

[6] Y. Guo, X. Li, W. Xu, C. Liu, M. Jin, L. Lu, J. Xie, A. Stroganov, J. Chen, and L. Zhou, "A hybrid-integrated external cavity laser with ultra-wide wavelength tuning range and high side-mode suppression," in Optical Fiber Communications Conference and Exhibition, (IEEE, 2022), paper Tu3D.4.

[7] Y. Guo, L. Zhou, G. Zhou, R. Zhao, L. Lu, and J. Chen, "Hybrid external cavity laser with a 160-nm tuning range," in Conference on Lasers and Electro-Optics, (IEEE, 2020), paper STu3M.2.

[8] Y. Guo, L. Zhou, G. Zhou, R. Zhao, L. Lu, and J. Chen, "Edge-coupled III-V/Si₃N₄ hybrid external cavity laser," in 18th International Conference on Optical Communications and Networks, (IEEE, 2019).

[9] R. Zhao, Y. Guo, L. Lu, M. S. Nisar, J. Chen, and L. Zhou, "Hybrid dual-gain tunable integrated InP-Si₃N₄ external cavity laser," Opt. Express, vol. 29, no. 7, pp. 10958-10966, 2021.

[10] X. Li, Y. Guo, C. Liu, X. Li, M. Jin, S. E, W. Xu, L. Lu, J. Chen, and L. Zhou, "FMCW source based on a hybrid integrated III-V/Si-Si₃N₄ dual-layer external cavity laser", in 2022 Conference on Lasers and Electro-Optics, (IEEE, 2022), paper SM2P.7.

[11] W. Xu, Y. Guo, X. Li, C. Liu, L. Lu, J. Chen, and L. Zhou, "Fully integrated solid-state LiDAR transmitter on a multi-layer silicon-nitride-on-silicon photonic platform," in Optical Fiber Communication Conference, (Optica Publishing Group, 2022), paper Th1E. 4.

[12] C. Liu, Y. Guo, W. Xu, L. Lu, J. Chen, and L. Zhou, "Improving the frequency chirp linearity of a frequency-modulated continuous-wave laser," in Optoelectronics and Communications Conference, (Optica Publishing Group, 2021), paper T4E. 7.

[13] W. Xu, C. Liu, Y. Guo, X. Li, L. Lu, J. Chen, and L. Zhou, "Impact of aperture size on beam evolution of optical phased arrays," in Optical Fiber Communication Conference, (Optica Publishing Group, 2021), paper F4A. 4.

[14] C. Liu, L. Lu, Y. Guo, X. Li, A. Stroganov, J. Chen, and L. Zhou, " Hybrid integrated frequency-modulated continuous-wave laser with synchronous tuning," J. Lightwave Technol., vol. 40, no. 16, pp. 5636-5645, 2022.