Mr. Zhuang Li, Xiamen University, China.
Zhuang Li is a dedicated researcher in Electrical Engineering at Xiamen University, specializing in
laser technologies and integrated circuits. With a robust academic background and extensive international exposure, Zhuang has contributed significantly to
next-generation laser sources. His research focuses on novel lasers, including vortex and single-frequency lasers, and the theoretical study of laser phenomena. Zhuang is currently pursuing his Ph.D. under Dr. Zhiping Cai and has been selected for a prestigious visiting scholar program at
Nanyang Technological University. Recognized for his achievements, Zhuang has earned multiple scholarships and awards, highlighting his academic excellence.
Publication profile
Education and Experience
B.Sc. in Electrical Engineering and Automation – Minnan Normal University (2016-2020) 
M.Sc. in Communication Engineering – Xiamen University (2020-2022) 
- GPA: 3.72/4 | Supervisor: Dr. Zhiping Cai
Ph.D. in Integrated Circuit Science and Engineering – Xiamen University (2022-Present) 
- GPA: 3.77/4 | Supervisor: Dr. Zhiping Cai
Visiting Scholar in Bio-lasers – Nanyang Technological University, Singapore (2024-2025) 
Suitability For The Award
Professional Development
Zhuang Li’s p rofessional growth lies in
laser source innovations, encompassing high-power lasers, frequency-doubled lasers, and vortex lasers.
He excels in independently designing complex laser systems, such as Q-switched and cascade lasers, while integrating advanced
multi-component doped glasses like Pr, Ho, and Nd fibers. With strong theoretical skills, Zhuang calculates experimental phenomena using
Laporta power theory and thermal lensing effects.
His international exposure, including a visiting position at Nanyang Technological University, enriches his expertise. Zhuang’s ability to
publish research in English and his focus on combining theory with experimentation underline his success as a versatile researcher.
Research Focus
Zhuang Li’s research is deeply rooted in
next-generation laser technologies and advanced optical systems. He explores high-power and high-efficiency
laser sources, such as vortex lasers, Q-switched, and mode-locked lasers with extremely narrow pulse widths.
His work delves into cutting-edge
theoretical frameworks, including Judd-Ofelt crystal theory and frequency-doubling mechanisms. Zhuang also pioneers the development of
multi-component doped glasses, leveraging praseodymium (Pr), holmium (Ho), and erbium (Er) to enhance optical fiber systems.
His research bridges the gap between theoretical calculations and practical applications, advancing innovations in
novel laser design and implementation.
Awards and Honors
Fujian Provincial Electronic Design Competition, Third Prize 
– July 2017
Fujian Graduate Student Electronic Design Competition, Third Prize – May 2021
China Graduate Student Electronic Design Competition, Third Prize – July 2021
Huawei Scholarship, Xiamen University – September 2021
Youxun Scholarship, College of Electronic Science and Technology 
– June 2023
Graduate Student Academic Scholarship, Xiamen University 
– 2020-Present
Cao Dewang Scholarship, Xiamen University 
– May 2024
Publications
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Highly efficient LD-pumped high power 718.5 nm Pr³⁺:YLF laser
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Sub-picometer level all-solid-state narrow linewidth single-frequency Pr³⁺:LiYF₄ laser in the near-infrared spectral region
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Wavelength-switchable watt-level continuous wave near-infrared Pr³⁺:LiYF₄ lasers pumped by an InGaN laser diode
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Dual-ended pumped high-power 915 nm Pr³⁺:LiYF₄ laser and power scaling under energy levels cascade
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Blue LD-pumped continuous wave a-cut Pr³⁺:LiYF₄ near-infrared laser at 868 nm
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LD-pumped all-solid-state single-longitudinal-mode Pr³⁺:LiYF₄ laser at 915 nm
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Continuous broadband tunable Pr³⁺:LiYF₄ laser in the near-infrared spectral range