黄海洲
副教授,硕士生导师
E-mail:hzh@fjnu.edu.cn
个人简介
黄海洲,博士,副教授,中国光学学会生物医学专业委员会青年委员,福建省高层次人才(c类)。2013年暨南大学光电工程系毕业后保送到中国科学院福建物质结构研究所,获凝聚态物理学博士学位,2018年7月留所工作,获“春苗青年人才”,2024年4月以“宝琛高端人才计划”引进到福建师范大学光电与信息工程学院。长期致力固体激光器的智能化和芯片化集成及应用研究,在光学工程领域国际知名期刊Opto-electronic Advance,Optics Letters,Optics Express、Optics and laser technology等发表学术论文40余篇,获得6项国家发明专利授权,担任《Chip》杂志青年编委,Additive manufacturing, Optics Letters, Optics Express等杂志审稿人。主持军委科技委项目、国家自然科学基金青年项目、国家重点研发计划课题子任务、中国博士后科学基金面上项目等并参与军口863计划,国防科技创新特区及中国科学院重大仪器项目中先进激光系统的研制工作。
研究方向
全固态/光纤激光器的智能化和芯片化集成
脉冲激光微纳制造
部分代表性论著
[1] J. Chen, J. Wu, C. Song, … H, Huang*, “Monitoring soliton self-frequency shifting via spectral reconstruction with a step-chirped PPMgLN ridge waveguide,” Optics & Laser Technology 2025, 190: 113271.
[2] N. Li, Z. Huang, H. Huang*, et al. Damage analyses between Q-switched Tm-doped yttrium aluminum garnet and yttrium aluminum perovskite lasers and the application in thermoplastics processing, Optics & Laser Technology 2025, 186: 112741.
[3] X. Lin and H. Huang*, Simplified eye-safe pulsed ToF LiDAR with modified Newtonian telescope for long-distance high-resolution detection in rain atmosphere, IEEE Transactions on Instrumentation and Measurement 2025, 74: 8501608.
[4] H. Huang, N. Li, W. Weng, et al. Above 45 W thermal lens compensated acousto-optically Q-switched Tm:YAP laser, Optics Express 2025, 33: 9434-9445.
[5] H. Huang, H. Chen, H. Liu, et al. High-intensity spatial-mode steerable frequency up-converter toward on-chip integration, Opto-Electronic Science 2024, 3: 230036.
[6] Huang H, Li N, Wu H, Liu H, Deng J, Weng W, et al. Obtaining constant sub-25 ns pulse in a Q-switched Tm laser with around 100 kHz repetition frequency. Optics & Laser Technology 2024, 172: 110478.
[7] Deng J, Huang H*, Liu H, Wu H, Ge Y, Weng W, et al. Design and Integration of Vanadate Crystal-Based Tm and Ho Ion-Doped Gain Media for a Miniature Diode-Pumped 2.1 μm Laser. Crystal Growth & Design 2024, 24(1): 471-479.
[8] 李楠, 黄海洲*, 史斐, 翁文, 李锦辉, 刘华刚*, 林文雄. 基于Tm:YAG激光腔内泵浦的12.1 W,2129 nm Ho:YAP激光器. 中国激光, 2024, 51:2201005.
[9] Li N, Huang H*, Shi F, Ruan K, Weng W, Chen C, et al. Above 10 W, 100 kHz-class cavity-dumped Tm:YAP laser at 1.94 μm. Infrared Physics & Technology 2023, 135: 104973.
[10] Weng W, Huang H*, Wu H, Li J, Zhang Z, Lin Z, et al. Electro-optically Q-switched Tm/Ho: YLF laser via polarization separation between the Tm laser and Ho laser in a coupled cavity. Optics Communications 2023, 532: 129248.
[11] Hu X, Wu H, Huang J, Huang H*, Weng W, Liu H, et al. Comparison in 2.1 μm laser performances among Tm:YLF laser intra-cavity pumped Ho:YLF, Ho:YAG, and Ho:YAP lasers. Infrared Physics & Technology 2022, 125: 104282.
[12] Chen H, Huang H, Cheng J, Zhang X, Feng X, Cheng X, et al. Broadband yellow-orange light generation based on a step-chirped PPMgLN ridge waveguide. Opt Express 2022, 30(18): 32110-32118.
[13] Liu L, Li N, Liu Y, Wang C, Wang W, Huang H*. 1 kHz, 430 mJ, sub-nanosecond MOPA laser system. Opt Express 2021, 29(14): 22008-22017.
[14] Huang H, Ruan K, Hu H, Deng J, Huang J, Weng W, et al. Above 10 W 2130 nm Ho:YAP laser intra-cavity pumped with composite YAP/Tm:YAP laser. Optics & Laser Technology 2021, 136: 106733.
[15] Huang H, Lin Z, Wu H, Ge Y, Wu L, Lin W. Direct diode-pumped integrated Tm:YAG/Ho:YAP laser. Optics & Laser Technology 2021, 144: 107405.
[16] Huang H, Li J, Deng J, Ge Y, Liu H, Huang J, et al. Passively Q-switched Tm/Ho composite laser. Opto-Electronic Advances 2020, 3(4): 190031-190036.
[17] Huang H, Hu H, Lin Z, Deng J, Huang J, Zheng H, et al. Anisotropic thermal analyses of a high efficiency Tm:YAP slab laser and its intra-cavity pumping for Ho lasers. Opt Express 2020, 28(14): 20930-20942.
[18] Huang H, Hu H, Deng J, Li J, Zhang J, Zheng H, et al. 11W YLF-based intra-cavity pumped Ho laser with near diffraction limited beam quality. Opt Lett 2020, 45(19): 5307-5310.
[19] Huang H, Deng J, Ge Y, Li J, Huang J, Weng W, et al. Direct 800 nm diode-pumped Holmium laser with broad pump wavelength range and temperature adaptability. Opt Express 2019, 27(9): 13492-13502.
[20] Huang H, Huang J, Liu H, Li J, Lin Z, Ge Y, et al. Manipulating the wavelength-drift of a Tm laser for resonance enhancement in an intra-cavity pumped Ho laser. Opt Express 2018, 26(5): 5758-5768.
[21] Huang H, Huang J, Ge Y, Zheng H, Weng W, Wu H, et al. 2.1 μm composite Tm/Ho:YAG laser. Opt Lett 2018, 43(6): 1271-1274.
[22] Huang H, Gao P, Liu H, Huang J, Wang J, Ruan K, et al. Validation of spectrum method for improving efficiency of continuous-wave & Q-switched Tm-doped yttrium aluminum garnet laser. SCIENCE CHINA Physics, Mechanics & Astronomy 2018, 61(3): 034221.
[23] Huang H, Huang J, Liu H, Li J, Dai S, Weng W, et al. Efficient 2122 mm Ho:YAG laser intra-cavity pumped by a narrowband-diode-pumped Tm:YAG laser. Opt Lett 2016, 41(17): 3952-3955.
发明专利
1. 一种光学频率梳产生装置应用系统及方法;黄海洲,林文雄,刘华刚,陈怀熹,史斐,翁文;专利号, ZL202211165890.2
2. 一种钬激光器;黄海洲,林文雄,黄见洪,翁文,李锦辉,郑晖,陈金明,戴殊韬;专利号,ZL201810124981.9.
3. 一种高光束质量Ho激光器;黄海洲,林文雄,胡华文,黄见洪,李锦辉,翁文,戴殊韬;专利号,ZL202011238976.4
4. 一种光固化3D打印机的有源承载托盘及光固化成型方法;黄海洲,林文雄,葛燕,黄见洪,阮开明,李锦辉,翁文;专利号,ZL202010936325.6.
5. 一种高重频1.55 μm全光纤脉冲激光器;林文雄,黄海洲,张江钿,黄见洪,李锦辉,翁文;专利号,ZL202110421456.5.
6. 一种基于密闭腔室的连续液面3D打印系统及成型方法:林文雄,黄海洲,黄见洪,葛燕,李锦辉,阮开明,吴鸿春;专利号,ZL202010581638.4.
