个人简历
2021.12-2021.12 我校现代光学所 副研究员
2019.01-2021.12 我校现代光学所 讲师
2016.10-2019.01 香港中文大学机械与自动化工程学系 Postdoctoral Fellow
香港中文大学深圳研究院 副研究员
2011.09-2016.06 太阳成集团61999 光学 博士
2009.09-2011.06 天津大学精密仪器与光电子工程学院 光电子技术科学 学士
2007.09-2009.06 我校信息技术科学学院 光电子技术科学 学士
科研项目/成果/获奖/专利
科研项目:
1 基于数字微镜阵列的多模光纤全息光镊及其应用研究 国家自然科学基金青年项目 2020.1-2022.12 25万 在研 主持
2 海洋信息融合与感知 南方海洋科学与工程广东省重点实验室创新团队项目横向 2020.1-2020.12 150万 结题 主持
3 基于光纤光栅的粒子捕获与操控技术研究 天津市自然科学基金青年项目 省部级 2021.12-2023.12 6万 在研 主持
4 多模光波导光子神经网络传输机理及其高速目标识别应用研究 国家自然科学基金面上项目 53万 获批 主持
5 其他省部级以上纵向项目 80万 获批 主持
参与国家重点研发计划、国家自然科学基金面上、天津市高层次创新创业团队项目等项目。
获奖:
2019年中国仪器仪表协会金国藩青年学子奖。
2019年天津市131创新型人才第三层次。
2021年天津市自然科学二等奖,“二维材料及其复合光纤微纳光电器件研究”(排名第5)。
授权专利:
1. 张昊、刘波、林炜、苗银萍、刘艳格、王志,一种基于镱锗共掺微结构光纤窄线宽双波长激光器的太赫兹波源:中国,201210141017X[P],2013-09-11(授权)
2. 林炜,孙心昀 刘波 战晓寒 李保洁 刘海锋 张昊;一种基于倾斜光纤光栅光镊的细胞分选仪,专利号:ZL 202011110400.X,授权日:2022年5月10日。
3. 刘波,蔡岳丰,刘海锋,林炜,张昊;一种基于晶体电光效应的空间光自适应耦合装置,专利号:ZL 2020105598021,授权日:2021年10月19日。
4. 林炜,刘波,刘海锋,张昊;一种一次成型的3D打印装置,专利号:ZL 202011072775.1,授权日:2021年8月31日。
5. 张昊,梁莹,李珊珊,林炜,刘波,刘艳格,王志,基于微结构光纤回音壁模式微腔的磁控可调谐太赫兹轨道角动量光束生成器,专利号:ZL202010715158.2,授权日:2021年4月30日。
论文/专著/教材
在SCI,EI收录期刊发表论文90余篇,累计引用1300余次,H因子22,一作/通讯作者论文如下:
2019年后
1. Z. Guo, Z. Lu, S. Meng, W. Lin*, H. Zhang, B. Liu, H. Liu, and Y. Yao, Analog transmission of time-frequency signal in atmospheric turbulence environment, Opt. Express 30(19), 34077-34091 (2022)
2. S. Hu, H. Liu, B. Liu, W. Lin*, H. Zhang, B. Song and J. Wu, Self-temperature compensation approach for fiber specklegram magnetic field sensor based on polarization specklegram analysis, Meas. Sci. Technol. 33(11) 115101, 2022
3. B. Song, C. Jin, J. Wu*, W. Lin*, B. Liu, W. Huang, and S. Chen, Deep learning image transmission through a multimode fiber based on a small training dataset, Opt. Express 30(4) 5657-5672, 2022.
4. Y. Cai, H. Liu, B. Liu, W. Lin*, H. Zhang, and Y. Qiao, Performance degradation and recovery of irradiated spaceborne fiber amplifier, Appl. Opt. 61(4), 995-1000, 2022.
5. Y. Cai, H. Liu, B. Liu, W. Lin*, H. Zhang, Z. Lu and Y Qiao, All-optical Power Equalization for Mitigating Scintillation Under Atmospheric Turbulence, Opt. Commun., 522, 128657, 2022.
6. Z. Lu, Z. Guo, M. Fan, M. Guo, C. Li, Y. Yao, H. Zhang, W. Lin*, H. Liu, and B. Liu, Tunable Bessel Beam Shaping for Robust Atmospheric Optical Communication, J. Lightwave Technol., 40(15) 5097 – 5106 2022.
7. W. Lin, H. Zhang*, Z. Gong, B. Liu, H. Liu, B. Song, J. Wu, Nonreciprocal morphology-dependent resonance in stacked spinning microresonators, J. Lightwave Technol., 39(8) 2443- 2453, 2021.
8. W. Lin, D. Chen, and S. Chen*, Emerging micro-additive manufacturing technologies enabled by novel optical methods, Photon. Res. 8(12) 1827-1842, 2020.
9. X. Hu, H. Zhang*, W. Lin*, T. Liu, and B. Liu, Light-Controlled Asymmetric Dual-S-Taper Fiber Interferometer Integrated With Ethyl Orange Solution Under 473 nm Laser Illumination. IEEE Sens. J., 21(21), 24149-24156, 2021.
10. W. Lin,H. Liu*,C. Yang,B. Liu,and H. Zhang, Fibre-optic salinity sensor based on multimode fibre specklegram analysis, Meas. Sci. & Technol. 32(11) 115110 (2021).
11. W. Lin, D. Wang, Y. Meng, and S. C. Chen*, Multi-focus microscope with HiLo algorithm for fast 3-D fluorescent imaging, Plos One 14(9), e0222729, 2019.
12. Y. Liang, H. Zhang*, W. Lin*, S. Li, Y. Wang, and B. Liu, Design of a magnetically tuned terahertz orbital angular momentum mode in air-clad microstructured optical fibers integrated with liquid crystals. Opt. Eng. 60(5), 056107, 2021.
2019年1月前:
1. F. Feng, W. Chen, D. Chen, W. Lin,* and S. C. Chen*, In-situ ultrasensitive label-free DNA hybridization detection using optical fiber specklegram, Sensors and Actuators B: Chemical 272, 160-165,2018.
2. W. Lin, H. Zhang, S. C. Chen, B. Liu, and Y. Liu, Microstructured optical fiber for multichannel sensing based on Fano resonance of the whispering gallery modes, Opt. Express 25(2), 994-1004 (2017). (IF: 3.307, )
3. W. Lin, H. Zhang, B. Liu, B. Song, Y. Li, C. Yang, and Y. Liu, Laser-tuned whispering gallery modes in a solid-core microstructured optical fibre integrated with magnetic fluids, Scientific Reports, 5, 17791, 2015.
4. W. Lin, H. Zhang, B. Song, Y. Miao, B. Liu, D. Yan, and Y. Liu, Magnetically controllable wavelength-division-multiplexing fiber coupler, Optics Express 23(9), 11123-11134, 2015.
5. W. Lin, B. Liu , H. Zhang , B. Song , D. Yan , Y. Miao , H. Liu, and Y. Liu, Laser-induced thermal effect for tunable filter employing Ferrofluid and fiber taper coupler, IEEE Photonics Technology Letters, 27(22), 2339-2342, 2015.
6. W. Lin, Y. Miao, B. Song, H. Zhang, B. Liu, Y. Liu, and D. Yan, Multimodal transmission property in a liquid-filled photonic crystal fiber, Optics Communications 336, 14-19, 2015.
7. W. Lin, B. Song, Y. Miao, H. Zhang, D. Yan, B. Liu, and Y. Liu, Liquid-filled photonic- crystal-fiber-based multimodal interferometer for simultaneous measurement of temperature and force, Applied optics 54 (6), 1309-1313, 2015.
8. W. Lin, Y. Miao, H. Zhang, B. Liu, Y. Liu, and B. Song, Fiber-optic in-line magnetic field sensor based on the magnetic fluid and multimode interference effects, Applied Physics Letters 103 (15), 151101, 2013.
9. W. Lin, Y. Miao, H. Zhang, B. Liu, Y. Liu, B. Song, and J. Wu, Two-dimensional magnetic field vector sensor based on tilted fiber Bragg grating and magnetic fluid, Journal of Lightwave Technology, 31 (15), 2599-2605, 2013.
讲授课程:
《工程制图基础》,《模拟电路》
社会兼职:
Journal of Lightwave Technology,IEEE Sensor Journal,Optics Express,Optical Engineering等期刊审稿人
光电子激光(英文版)审稿人,特约编委