教授 博士研究生导师
专业:光学工程、电子信息
研究方向:半导体激光器芯片(EEL)、激光无线能量传输(LWPT)、
垂直面发射激光器(VCSEL)、碟片激光器(OPSL)、光子晶体激光器(PCSEL)、
量子级联激光器(QCL)等
◆ 教育经历:
1981-1985 天津大学 学士 专业:金属材料
1985-1988 中国科学院金属研究所 硕士 专业:金属材料
1990-1992 Queen’s University 硕士 专业:应用物理
1993-1997 McMaster University 博士 专业:工程物理
◆ 人才项目及获奖:
1. 国家级重大人才工程
2. 四川省“天府学者”特聘专家
3. 江苏省“双创团队”领军人才
4. 姑苏重大创新团队领军人才
5. 苏州市杰出人才奖
6. 江苏省科学技术奖一等奖(第一完成人)
7. 国防技术发明奖二等奖(第一完成人)
8. 吴文俊人工智能科学技术二等奖(第一完成人)
9. 中国专利优秀奖(2次)
◆ 学术兼职:
1. 姑苏半导体激光创新中心 常务副主任及学术委员会委员
2. 中科院上海光机所上海市全固态激光器与应用技术重点实验室学术委会 委员
3. 季华实验室学术委员会 委员
◆ 代表性科研项目:
1. 2013-2015“高功率、高效率、高亮度半导体激光芯片关键技术研究” 科技部项目 技术负责人
2. 2016-2019 “长寿命高亮度半导体激光泵源”国家重点研发计划 主持
3. 2020-2022 “高性能垂直腔面发射激光器(VCSEL)芯片” 国家发改委 主持
4. 2023-2026“高损伤阈值超高效率半导体激光芯片研发及产业化”江苏省科技厅成果转化专项 主持
5. 其他省部级以上项目12项
u 代表性科研论文:
1. Y. Xiao, J. Wang*, H. Liu, P. Miao, Y. Gou, Z. Zhang, G. Deng, S. Zhou,“Multi-junction cascaded vertical-cavity surface-emitting laser with a high power conversion efficiency of 74%”,Light Science & Applications 13, 60(2024)
2. J. Wang , S. Tan , Y. Shao , W. Liu , K. Tian , Y. Xiao , Z. Zhang , Y. Gou ,L. Zhu , B. Wang and S. Zhou,“Double-Junction Cascaded GaAs-Based Broad-Area Diode Lasers with 132W Continuous Wave Output Power”,Photonics 11, 258(2024)
3. Y. Xiao, P. Miao, J. Wang*, H. Liu, Y. Gou, Z. Zhang, B. Wang, W. Liu, Q. Wang, G. Deng, And S. Zhou,“Twenty-milliwatt, high-power, high-efficiency,single-mode, multi-junction vertical-cavitysurface-emitting lasers using surface microstructures” Photonics Research 12, 9(2024)
4. X. Luo, Y. Wang, Y. Zhang, C. Qian, Y. Cheng, W. Zhao, F. Sun, Z. Wei, J. Wang*,“9.4 μm emitting quantum cascade lasers grown by MOCVD: Performance improvement obtained through AlInAs composition adjustment”,Optics Communications 575, 131296 (2025).
5. Wang, B., Zhou, L., Tan, S., Liu, W., Deng, G., & Wang, J*. “71% wall-plug efficiency from 780 nm-emitting laser diode with GaAsP quantum well,” Optics & Laser Technology, 168, 109867 (2024)
6. L. Zhu , W. Liu, J. Qin, Y. Shao, S. Tan, and J Wang*.“High Power 780 nm Broad-Area DFB Laser With Narrow Spectral Width”, IEEE Photonics Journal 17, 1(2024)
7. Y. Gou, H. Wang, J. Wang*, Y. Chen, Z. Mou, Y. Chen, H. Yang, and G. Deng, "High-performance laser power converts for wireless information transmission applications," Optics Express 31, 34937-34945 (2023).
8. Y. Gou, H. Wang, J. Wang*, H. Yang, and G. Deng, "High performance p++-AlGaAs/n++-InGaP tunnel junctions for ultra-high concentration photovoltaics," Optics Express 30 (13), 23763-23770 (2022).
9. Y. Gou, H. Wang, J. Wang*, R. Niu, X. Chen, B. Wang, Y. Xiao, Z. Zhang, W. Liu, and H. Yang, "High-performance laser power converts for direct-energy applications," Optics Express 30 (17), 31509-31517 (2022).
10. Y. Gou, H. Wang, J. Wang*, Y. Zhang, R. Niu, X. Chen, B. Wang, Y. Xiao, Z. Zhang, W. Liu, H. Yang, and G. Deng, "1064 nm InGaAs metamorphic laser power converts with over 44% efficiency," Optics Express 30 (23), 42178-42185 (2022).
11. H. Wang, J. Wang*, H. Yang, G. Deng, Q. Yang, R. Niu, and Y. Gou, "The Effect of Non-Uniform Irradiation on Laser Photovoltaics: Experiments and Simulations," Photonics, 493 (2022).
12. B. Wang, S. Tan, L. Zhou, Z. Zhang, Y. Xiao, W. Liu, Y. Gou, G. Deng, and J. Wang*, "High Reliability 808nm Laser Diodes With Output Power Over 19W Under CW Operation," IEEE Photonics Technology Letters 34, 349-352 (2022).
13. X. Chen, Y. Xiao, Y. Cheng, Z. Zhang, Y. Gou, and J. Wang*, "MOCVD growth and thermal stability analysis of 1.2 µm InGaAs/GaAs multi quantum well structure," Journal of Alloys and Compounds 922, 166173 (2022).
14. Z. Zhang, H. Pan, S. Tan, H. Yu, W. Liu, Y. Xiao, B. Wang, J. Zhou, S. Sun, W. Zhao, Y. Gou, J. Wang*, S. Wang, and S. Zhou, "Spectrum-locked high-power volume Bragg grating external-cavity diode laser," Laser Physics Letters 19, 065001 (2022).
15. Z. Zhang, S. Wang, X. Hu, S. Wang, Y. Pu, H. Li, and J. Wang*, "All-fiber passively Q-switched laser with flat-top beam emissions," Optics Letters 47, 521-524 (2022).
16. Z. Zhang, B. Wang, Y. Xiao, S. Wang, and J. Wang*, "Impact of reverse saturable absorption on pulse dynamics in the ultrafast fiber laser," Optics Communications 508, 127739 (2022).
17. Z. Zhang, S. Wang*, Y. Pu, S. Wang, H. Li, and J. Wang*, "Improving the formation probability and stability of noise-like pulse by weakening the spectrum filtering effect," Optics Express 30, 31998-32009 (2022).
18. Z. Zhang, S. Wang, X. Hu, B. Wang, and J. Wang*, "Ultrafast ytterbium-doped all-fiber laser with vortex pulse emissions," Laser Physics Letters 19, 035103 (2022).
19. Z. Zhang, Y. Xiao, J. Wang*, P. Miao, H. Liu, Y. Cheng, Y. Gou, S. Wang, G. Deng, S. Zhou, “High-power and low-threshold 1200 nm InGaAs/GaAs quantum-wells VECSEL grown by MOCVD”, Journal of Luminescence 263, 120022 (2023).
20. W. Liu, S. Tan, B. Wang, Y. Xiao, J. Wang*, “Thermal Lensing Effect Reduction on High-Power Multi-Mode Diode Lasers” IEEE Photonics Technology Letters 35(12), 660-663 (2023).
