通讯地址：Beat365唯一官方网站/人工智能学院明理楼C423

电子邮箱：zybai@tjnu.edu.cn

研究方向：超快光学技术、光纤通信与传感、微波光子学等

个人简介：

2021年9月毕业于北京交通大学通信与信息系统专业，获工学博士学位；2017年10月至2019年4月为美国加州大学洛杉矶分校联合培养博士；2022年3月至2025年6月在清华大学电子工程系从事博士后研究；2025年9月入职Beat365唯一官方网站/人工智能学院，担任讲师。

科研项目：

[1]国家自然科学基金，国际（地区）合作与交流项目：高稳定性、窄线宽多波长石英基掺Tm³⁺光纤激光器及其在空间光通信中的应用（参与）

[2]国家自然科学基金，重大科研仪器研制项目：面向光纤激光的超宽带波长自适应高精度单频激光线宽测试仪（参与）

主要论文：

[1]Zhuoya Bai, JinghanYu, Weichen Hou, Shangyuan Li, Xiaoxiao Xue, and Xiaoping Zheng,“Analysis ofhigh-quality ultrashort pulse generation based on a dual-drive Mach-Zehnder modulator and chirp compensation,”Optics Express,32, 20(2024):34254-34263.(SCI)

[2]Zhuoya Bai, Shangyuan Li, Xiaoxiao Xue, and Xiaoping Zheng, “Ultra-wideband instantaneous frequency measurement based on differential photonic time-stretch,”Optics Communications, 541 (2023): 129516. (SCI)

[3]Zhuoya Bai, Fengping Yan, Wenguo Han, Luna Zhang, and Hong Zhou, “Ultrafast and temperature-insensitive strain interrogation using PM-PCF based Sagnac loop interferometer and wavelength-to-time mapping,”Optics Express, 29, 9 (2021):13778-13786.(SCI)

[4]Zhuoya Bai, Fengping Yan, Wenguo Han, Qi Qin, and Ting Li, “Real-time strain interrogation based on an STS-structure and wavelength-to-time mapping,”IEEE Photonics Technology Letters,33, 12 (2021): 615-618. (SCI)

[5]Zhuoya Bai, Cejo Konuparamban Lonappan, Tianwei Jiang, Asad M. Madni, Fengping Yan, and Bahram Jalali, “Tera-sample-per-second single-shot device analyzer,” Optics Express,27, 16 (2019): 23321-23335. (SCI)

[6]Zhuoya Bai, Fengping Yan, Luna Zhang, and Ning Zhang, “2-μm numerical analysis of linear-cavity FP structures based on fiber Bragg gratings,” Optical Engineering, 56, 5 (2017): 056107. (SCI)

会议：

[1]Zhuoya Bai, Cejo Konuparamban Lonappan, Asad M. Madni, and Bahram Jalali, “Time-stretch Network Analyzer for Single-shot Characterization of Electronic Devices,” In IEEE2019 Conference on Lasers and Electro-Optics (CLEO), San Jose.

[2]白卓娅,Research on ultrashort pulse generation and compression, InCIOP2025, 西安.(邀请报告)

专利：

[1]白卓娅,延凤平,韩文国,程丹,李挺,杨丹丹.基于差分光学时间拉伸原理的瞬时频率测量系统及方法,ZL202111670040.3（发明专利）