Associate Researcher at Changchun University of Science and Technology | China
Dr. Jie Fan is an Associate Researcher, Doctoral Supervisor, and Research Teacher at Changchun University of Science and Technology. Recognized as a High-Level D Talent in Jilin Province, Dr. Fan is a rising force in the field of semiconductor laser technology. With more than 30 academic publications and involvement in innovative laser device development, Dr. Fan is carving a significant niche in optoelectronic device research.
Profile
Scopus
🎓 Early Academic Pursuits
Dr. Fan pursued advanced studies in semiconductor optoelectronics, laying a robust academic foundation in laser device physics and engineering. The academic journey was defined by an early focus on semiconductor light sources and beam quality enhancement, which later evolved into targeted, high-impact research directions.
💼 Professional Endeavors
Currently serving at the Changchun University of Science and Technology, Dr. Fan has taken on multiple roles including research leader, doctoral mentor, and project investigator. Leading 9 scientific research projects showcases not only scientific depth but also the ability to manage complex, long-term research efforts effectively.
🔬 Contributions and Research Focus
Dr. Fan’s core research revolves around high-power and high beam quality semiconductor laser technology. A standout contribution is the monolithic integration of DBR master oscillator and tapered power amplifier (MOPA) structure, enabling lasers with enhanced beam quality and peak power. Another key innovation is the development of dual-wavelength semiconductor laser devices using double Bragg grating diffraction feedback, achieving stable dual-output modes. Furthermore, Dr. Fan has addressed the challenge of transverse multi-lobe output in high-power lasers, enhancing near-fundamental mode performance—a vital step for real-world applications.
🌐 Impact and Influence
Despite a currently low citation index (1), the originality and applied relevance of Dr. Fan’s work present strong potential for future academic and industrial impact. The submission of 8 additional patents underlines continuous innovation and the intention to bridge research with practical solutions in optoelectronics.
📚 Academic Citations
With 27 SCI/Scopus-indexed journal articles, including contributions to Optics Letters and Optics Communications, Dr. Fan has made substantial efforts in academic dissemination. While the current citation index reflects early-stage impact, the volume and quality of publications indicate strong groundwork for rising academic influence.
🧠 Research Skills
Dr. Fan brings expertise in semiconductor laser modeling, structural integration, diffraction feedback design, and device fabrication. The ability to move from conceptual design to physical realization of complex laser systems showcases a rare combination of theoretical insight and experimental skill.
👨🏫 Teaching Experience
As a doctoral supervisor, Dr. Fan is deeply involved in mentoring graduate students and guiding cutting-edge research topics. The integration of teaching and research helps foster a new generation of optoelectronics researchers equipped with both academic rigor and applied skills.
🏆 Awards and Honors
Dr. Fan is listed among the High-Level D Talents in Jilin Province, recognizing his scientific excellence and research leadership. This designation is a testament to his growing status as a key contributor in China’s advanced optoelectronics research landscape.
🧬 Legacy and Future Contributions
Looking ahead, Dr. Fan is poised to further influence the semiconductor laser industry through scalable device designs and collaborative innovation. While more visibility through citations, industry partnerships, and global collaboration will enhance his profile, the foundational research already promises a lasting legacy in high-performance laser device engineering.
Publications Top Notes
Research on the Asymmetric Phase-Shift Laterally-Coupled DFB Semiconductor Lasers with High Single Longitudinal Mode Yield
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Authors: Zhang, Naiyu; Qiu, Bocang; Zou, Yonggang; Li, Qingmin; Ma, Xiaohui
Journal: Optics Express
Year: 2025
Study on Mode Characteristics of Supersymmetric Transversally Coupled Array Semiconductor Lasers
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Authors: Wang, Zelong; Fan, Jie; Zou, Yonggang; Li, Yan; Ma, Xiaohui
Journal: Optics Communications
Year: 2025
Thermal Characteristics Analysis of Multi-Material Composite Heat Sink Structure Based on VCSEL Array
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Authors: Wang, Chenxin; Zou, Yonggang; Fan, Jie; Song, Yingmin; Liang, Hongjin
Journal: Laser and Optoelectronics Progress
Year: 2025
Near 1050 nm Laterally Coupled DFB Laser with Tightened-Ridge-Waveguide for Improving Grating Coupling Capability and Controlling Lateral Modes
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Authors: Hou, Huilong; Fan, Jie; Fu, Xiyao; Zou, Yonggang; Ma, Xiaohui
Journal: Optics Letters
Year: 2025
Dual-Wavelength Composite Grating Semiconductor Laser for Raman Detection
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Authors: Huang, Zhuoer; Zou, Yonggang; Fu, Xiyao; Wang, Xiaozhuo; Cheng, Biyao
Journal: Optics and Laser Technology
Year: 2025