研究领域：

论文成果：

• Battery-operated Integrated Frequency Comb Generator .Nature .2018
• Ultra‐Low‐Loss Silicon Nitride Photonics Based on Deposited Films Compatible with Foundries .Laser & Photonics Reviews .2023
• Widely Tunable and Narrow-linewidth Chip-scale Lasers from Near-ultraviolet to Near-infrared Wavelengths .Nature Photonics .2022
• Millimeter-scale Chip-based Supercontinuum Generation for Optical Coherence Tomography .Science Advances .2021
• Exploiting Ultralow Multimode Waveguides for Broadband Frequency Combs .Laser & Photonics Reviews .2020
• Methods to Achieve Ultra-high Quality Factor Silicon Nitride Resonators .APL Photonics .2021
• Ultra-low-loss On-chip Resonators with Sub-milliwatt Parametric Oscillation Threshold .Optica .2017
• Exploiting Ultra-Low Loss Silicon Nitride Platform for Various Applications .2022 OPTICAL FIBER COMMUNICATIONS CONFERENCE AND EXHIBITION (OFC) .2022
• Measurements and Modeling of Atomic-Scale Sidewall Roughness and Losses in Integrated Photonic Devices .Advanced Optical Materials .2022
• Exploiting Atomic Nature of the Interface for Controlling Mode Coupling in Microresonators .Conference on Lasers and Electro-Optics .2022

专利：

• Microresonator-Frequency-Comb-Based Platform For Clinical High-Resolution Optical Coherence Tomography ,2023/07/13
• Millimeter-scale chip-based supercontinuum generation for optical coherence tomography ,2023/07/13
• Thermally Tunable Low Loss Broadband Waveguides and Related systems and Methods ,2023/07/13
• Compact Narrow-linewidth Integrated Laser ,2023/07/13
• Fully Integrated Chip Platform for Electrically Pumped Frequency Comb Generation ,2023/07/13
• Tunable Optical Frequency Comb Generator in Microresonators ,2023/07/13
• Self-Injection Locking of Fabry-Perot Lasers with Silicon based Resonators for High Power Narrow Linewidth on Chip Sources ,2023/07/13

科研项目：

• 氮化硅的晶圆级薄膜沉积 -2024/12/01
• 硅基异质光子集成关键工艺 -2025/10/01
• Optica基金会20周年挑战奖-基于低损耗氮化硅平台的低成本、便携式、集成化光学相干断层扫描系统研发 -2024/04/01
• 集成化光子谐振器件 -2024/12/01