苏辉博士1989年至1998年先后在武汉大学（本科）、在中国科学院（硕博）求学，之后在海外学习工作12年，获得博士学位。并在海外工作从事博士后研究，以及担任核心研发工程师（首席科学家），长期从事半导体激光器的研发，拥有丰富的研发及产业化实践经验。回国后任职于中国科学院福建物质结构研究所课题组长、研究员及博士生导师，2011年创立了福建中科光芯光电科技有限公司，任职董事长、总经理。中科光芯以技术为核心，市场为导向，每年陆续推出多款光通信用半导体激光器，多年来的沉淀与积累，得到国内一线光通信厂商的认可，包括华为、中兴、特发、铭普等，公司已经实现累计超过3亿颗光通信芯片的批量出货。作为项目负责人承接20余项国家级、省级项目，研究领域覆盖半导体光芯片、窄线宽激光器、高功率激光器、量子级联激光器、光子晶体、太赫兹检测、微振动探测等，已发表SCI论文30余篇，授权发明专利30余件。

1．Run Zhang, Zhi Li, Lei Xu, Xingli Zhong, Zhongxi Lin, WeibinQiu，Hui Su*, Investigation of the properties of photonic crystal resonant cavities based on valley spin reversal, Journal of Physics, 57 (2024) 265103 (9pp)

2．段阳，林中晞，苏辉*, 1.74 μm 大应变 InGaAs/InGaAsP 半导体锁模激光器, 红外与激光工程, 2024年第 53 卷,第 6 期

3．Kedi Ma, Zizhuo Liu , Fengmin Cheng , Pengchang Yang , Hongxiao Li , Shan Niu , Gaohui Ge,Hao Xu , Ning Zhuo, Hui Su* and Jinchuan Zhang, Wavelength-Stable Metal Grating Distributed Feedback Quantum Cascade Laser Emitting at λ ~ 7.2 µm, chemosensors, 2024, 12(1), 2

4．Xiaofan Zhao, Anjun Luo, Zhongxi Lin, Xingli Zhong, Zhenguo Zhu, Qi Lin, Hui Su*, Lead-free Cs3Cu2I5 perovskite vertical cavity surface emitting lasers with low threshold, Journal of Luminescence, Volume 253,2023,119434.

5．Qi Lin, Zhongxi Lin, Yong Li, Hui Su* and Fusheng Ma. Reduce the effects of Fabry-Perot interference and system dispersion in continuous wave terahertz coherence measurements with two optical-path differences, Optics and Lasers in Engineering, 2020, 134, 106234.

6．陈景源、林中晞、林琦、徐玉兰、苏辉*，高辐射强度的带THz扼流圈的偶极天线阵列模拟分析，红外与毫米波学报，2018，37（6）。

7．徐玉兰、林中晞、林琦、陈景源、苏辉*，注入锁定半导体锁模激光器的时序抖动特性,光子学报，2018，47（9）。

8．訾慧、薛正群、王凌华、林中晞、苏辉*，1550nm宽光谱超辐射发光二极管的研制[J]，红外与激光工程，2018，47（4）

9．江璐芸、王凌华、林中晞、苏辉*，光反馈对光纤光栅外腔半导体激光器特性的影响[J]，中国激光，2016,(07):68。

10．H. Su and S. L. Chuang, "Room temperature slow and fast light in quantum-dot semiconductor optical amplifiers,"Applied Physics Letters 88, 061102 (2006).

11．H. Su and S. L. Chuang, "Room-temperature slow light with semiconductor quantum-dot devices," Optics Letters31, 271-273 (2006).

12．H. Su, P. Kondratko, and S. L. Chuang, "Variable optical delay using population oscillation and four-wave-mixing in semiconductor optical amplifiers," Optics Express 14, 4800-4807 (2006).

13．Su, H., Li, H., Zhang, L., Zou, Z., Gray, A. L., Wang, R., Varangis, P. M., and Lester, L. F., "Nondegenerate four-wave mixing in quantum dot distributed feedback lasers," IEEE PHOTONICS TECHNOLOGY LETTERS vol. 17, no. 8, pp. 1686-1688, Aug.2005.

14．Su, H., Zhang, L., Wang, R., Newell, T. C., Gray, A. L., and Lester, L. F., "Linewidth study of InAs-InGaAs quantum dot distributed feedback lasers," IEEE PHOTONICS TECHNOLOGY LETTERS, vol.16, no. 10, pp. 2206-2208, Oct.2004.

15．Su, H., Zhang, L., Gray, A. L., Wang, R., Newell, T. C., Malloy, K. J., and Lester, L. F., "High external feedback resistance of laterally loss-coupled distributed feedback quantum dot semiconductor lasers," IEEE PHOTONICS TECHNOLOGY LETTERS, vol. 15, no. 11, pp. 1504-1506, Nov.2003.