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胡浩丰

教授  

联系电话:

电子邮件:haofeng_hu@tju.edu.cn

通讯地址:天津市南开区卫津路92号,天津大学8号楼315

  • 导师类型

    博士生导师:海洋环境、海洋技术、光学工程

    硕士生导师:海洋技术、光学工程

  • 研究方向

  • 教育经历

    2002.09-2006.06 南开大学 物理学院 光信息科学与技术 本科

    2006.09-2011.06 南开大学 现代光学研究所 光学工程 博士

    2011.12-2013.12 法国国家科学研究中心(CNRS)光学研究所  博士后

  • 工作经历

    2014.03-2020.04 天津大学 精密仪器与光电子工程学院  副教授

    2020.07-至今 天津大学 海洋科学与技术学院  教授

  • 主讲课程

    《现代海洋探测技术及应用》、《新型光电材料与器件》、《光学中的信号与系统》、《物理基础B》

  • 科研项目

    1) 国家重点研发计划青年科学家项目,核电站临近海域典型致灾生物预测预警与趋势分析,2024.01-2027.12,200万元,首席科学家

    2) 国家高层次青年人才计划项目,210万,2023.7-2026.6,负责人

    3) 三生集团校企合作项目,海洋经济技术基础研究,2023.7-2026.7,500万元,负责人

    4) 国家级项目,2022.10-2024.10,100万元,负责人

    5) 国家级重点项目课题,2021.05-2023.12,100万元,负责人

    6) 国家级重点项目课题,2019.08-2021.12,180万元,负责人

    7) 国家自然科学基金面上项目,基于物理内蕴深度神经网络的微光偏振成像技术研究,2021.01-2024.12,59万元,负责人

    8) 国家自然科学基金面上项目,偏振成像技术在强散射环境下的多参量图像表征方法研究,2018.01-2021.12,62万元,负责人

    9) 横向项目,2021.04-2021.12,67万元,负责人

    10) 广西科技重大专项课题,新型水下探测技术及设备的研发,2021.01-2023.12,53万元,负责人

    11) 中国科协青年人才托举工程项目,2017.12-2020.06,45万元,负责人

    12) 国家自然科学基金青年项目,偏振成像标量图像对比度增强及优化技术的研究,2015.01-2017.12,25万元,负责人

    13) 青岛海洋科学与技术国家实验室主任基金,面向海洋的光纤力热磁多参量复合传感技术,2017.12-2019.12,50万元,负责人

    14) 天津市自然科学基金项目,宽带偏振成像技术及系统的研究,2015.06-2018.06,6万元,负责人

    15) 教育部留学回国人员科研启动基金,“宽带偏振成像对比度优化技术的研究”,3万元,负责人

    16) 国家重大科学仪器设备开发专项,光纤力热复合测试仪开发和应用,2013.10-2018.09,10026万元,参与人

    17) 国家自然科学基金重大科研仪器设备研制专项,具有飞秒级时间分辨率的脉冲数字全息实时探测仪的研制,2012.01-2016.12,350万元,第三参与人

    18) 国家自然科学基金重点项目,采用脉冲数字全息术对飞秒级超快瞬态过程进行实时探测和多维表征的研究,2008.01-2011.12,180万元,主要参与人

  • 论文专著

    专著

    [1] 胡浩丰、刘铁根、李校博著,《偏振信息测量及其成像处理技术》,科学出版社,2022. (“十三五”国家重点出版物出版规划项目)

    [2] 胡浩丰、胡浩丰, 刘京, 张丹, 阎肖鹏、肖进胜著,《偏振成像与深度学习技术应用》,人民交通出版,2021.

    代表性论文:

    [1] Haofeng Hu, Huifeng Jin, Hedong Liu, Xiaobo Li*, Zhenzhou Cheng, Tiegen Liu, Jingsheng Zhai, “Polarimetric image denoising on small datasets using deep transfer learning,” Optics & Laser Technology, 166, 109632(2023).

    [2] Hedong Liu, Xiaobo Li, Zhenzhou Cheng, Tiegen Liu, Jingsheng Zhai, Haofeng Hu*, “Pol2Pol: self-supervised polarimetric image denoising,” Optics Letters 48(18), 4821-4824 (2023).

    [3] Weihong Zhang, Xiaobo Li, Shuping Xu, Xujin Li, Yiguang Yang, Degang Xu, Tiegen Liu, Haofeng Hu*, “Underwater Image Restoration via Adaptive Color Correction and Contrast Enhancement Fusion,” Remote Sensing 15(19), 4699 (2023)

    [4] Haofeng Hu, Shuping Xu, Yazhuo Zhao, Hongyi Chen, Shiyao Yang, Hedong Liu, Jingsheng Zhai, Xiaobo Li*, “Enhancing Underwater Image via Color-Cast Correction and Luminance Fusion,” IEEE Journal of Oceanic Engineering (2023).

    [5] Hedong Liu, Xiaobo Li, Zhenzhou Cheng, Tiegen Liu, Jingsheng Zhai, Haofeng Hu*, “Polarization Maintaining 3-D Convolutional Neural Network for Color Polarimetric Images Denoising,” IEEE Transactions on Instrumentation and Measurement 72, 1-9 (2023).

    [6] Xiaobo Li, Lei Yan*, Pengfei Qi, Liping Zhang, François Goudail*, Tiegen Liu, Jingsheng Zhai, Haofeng Hu*, “Polarimetric Imaging via Deep Learning: A Review,” Remote Sensing 15(6), 1540 (2023).

    [7] Haofeng Hu, Shiyao Yang, Xiaobo Li*, Zhenzhou Cheng, Tiegen Liu, Jingsheng Zhai, “Polarized image super-resolution via a deep convolutional neural network,” Optics Express 31(5), 8535-8547 (2023).

    [8] Haofeng Hu, Yizhao Huang, Xiaobo Li*, Liubing Jiang, Li Che, Tiegen Liu, Jingsheng Zhai, “UCRNet: Underwater color image restoration via a polarization-guided convolutional neural network,” Frontiers in Marine Science 9, 1-11 (2022)

    [9] Xiaobo Li, Liping Zhang, Pengfei Qi, Zhiwei Zhu, Jianuo Xu, Tiegen Liu, Jingsheng Zhai, Haofeng Hu*, “Are Indices of Polarimetric Purity Excellent Metrics for Object Identification in Scattering Media?” Remote Sensing 14(17), 4148 (2022).

    [10] Haofeng Hu, Yilin Han, Xiaobo Li, Liubing Jiang, Li Che, Tiegen Liu, and Jingsheng Zhai*, “Physics-informed neural network for polarimetric underwater imaging,” Optics Express 30(13), 22512-22522 (2022).

    [11] Pengfei Qi, Xiaobo Li, Yilin Han, Liping Zhang, Jianuo Xu, Zhenzhou Cheng, Tiegen Liu, Jingsheng Zhai, Haofeng Hu*, “U2R-pGAN: Unpaired underwater-image recovery with polarimetric generative adversarial network,” Optics and Lasers in Engineering 157, 107112 (2022).

    [12] Hedong Liu, Yizhu Zhang, Zhengzhou Chen, Jingsheng Zhai, Haofeng Hu*, “Attention based neutral network for polarimetric image denoising,” Optics Letters 47(11), 2726-2729 (2022).

    [13] Xiaobo Li, Yilin Han, Hongyuan Wang, Tiegen Liu, Shih-Chi Chen*, Haofeng Hu*, “Polarimetric Imaging Through Scattering Media: A Review,” Frontiers in Physics 10, 815296 (2022).

    [14] Hongyuan Wang, Haofeng Hu*, Junfeng Jiang*, Xiaobo Li, Weihong Zhang, Zhenzhou Cheng, and Tiegen Liu, “Automatic underwater polarization imaging without background region or any prior,” Optics Express 29(20), 31283-31295 (2021).

    [15] Hedong Liu, Yizhu Zhang*, Tiegen Liu, Haofeng Hu*, “Frequency interferometric localization microscopy,” Optics Letters 46(16), 3973-3976 (2021).

    [16] Hongyuan Wang, Haofeng Hu*, Junfeng Jiang*, Jiaqi Li, Xiaobo Li, Weihong Zhang, Zhenzhou Cheng, Tiegen Liu, “Polarization differential imaging in turbid water via Mueller matrix and illumination modulation,” Optics Communications 499(15), 127274 (2021).

    [17] Hongyuan Wang, Jiaqi Li, Haofeng Hu*, Junfeng Jiang*, Xiaobo Li, Kan Zhao, Zhenzhou Cheng, Mei Sang, Tiegen Liu, “Underwater imaging by suppressing the backscattered light based on Mueller matrix,” IEEE Photonics Journal 13(4), 7800106 (2021).

    [18] Xiaobo Li, François Goudail*, Pengfei Qi, Tiegen Liu, Haofeng Hu*, “Integration time optimization and starting angle autocalibration of full Stokes imagers based on rotating retarder,” Optics Express 29 (6), 9494-9512 (2021).

    [19] Haofeng Hu, Pengfei Qi, Xiaobo Li*, Zhenzhou Cheng, Tiegen Liu*, “Underwater imaging enhancement based on a polarization filter and histogram attenuation prior,” Journal of Physics D: Appl. Phys. 54 (17), 175102 (2021).

    [20] Haofeng Hu, Yang Lin, Xiaobo Li*, Pengfei Qi, Tiegen Liu, “IPLNet: a neural network for intensity-polarization imaging in low light,” Optics Letters 45 (22), 6162-6165 (2020).

    [21] Xiaobo Li, Haiyu Li, Yang Lin, Jianhua Guo, Jingyu Yang, Huanjing Yue, Kun Li, Chuan Li, Zhenzhou Cheng, Haofeng Hu*, Tiegen Liu, “Learning-based denoising for polarimetric images,” Optics Express 28 (11), 16309-16321 (2020).

    [22] Xiaobo Li, Benjamin Le Teurnier, Matthieu Boffety, Tiegen Liu, Haofeng Hu*, François Goudail*, “Theory of autocalibration feasibility and precision in full Stokes polarization imagers,” Optics Express 28 (10), 15268-15283 (2020).

    [23] Haofeng Hu, Yanbin Zhang, Xiaobo Li, Yang Lin, Zhenzhou Cheng, Tiegen Liu*, “Polarimetric underwater image recovery via deep learning,” Optics and Lasers in Engineering 133, 106152 (2020).

    [24] Hongyuan Wang, Junfeng Jiang, Haofeng Hu*, Qun Han*, Zezhou Sun, Zheng Zheng, Zhenzhou Cheng, and Tiegen Liu “Temperature compensation of optical alternating magnetic field sensor via a novel method for on-line measuring,” Optics Express 28(9), 13682-13693 (2020).

    [25] Xuezhi Zhang, Yuqing Li, Haofeng Hu*, Junfeng Jiang, Kun Liu, Xiaojun Fan, Ming Feng, Tiegen Liu, “Recovered HCN absorption spectrum based FBG demodulation method covering the whole C-band for temperature changing environment,” IEEE Access 8, 15039-15046 (2020).

    [26] Tiegen Liu, Zijian Guan, Xiaobo Li, Zhenzhou Cheng, Yingdong Han, Jingyu Yang, Kun Li, Junying Zhao, and Haofeng Hu*, “Polarimetric underwater image recovery for color image with crosstalk compensation,” Optics and Lasers in Engineering 124, 105833 (2020).

    [27] Haofeng Hu, Xiaowei Song, Qun Han*, Pengxiang Chang, Jiahang Zhang, Kun Liu, Yong Du, Hongyuan Wang, Tiegen Liu “High Sensitivity Fiber Optic SPR Refractive Index Sensor Based on Multimode-No-core-Multimode Structure,” IEEE Sensors Journal 20(6) 2967-2975 (2020).

    [28] Xiaobo Li, Haofeng Hu*, Matthieu Boffety, Stéphane Roussel, Tiegen Liu, and François Goudail*, “Optimal tradeoff between precision and sampling rate in DoFP imaging polarimeters,” Optics Letters 44(24), 5900-5903 (2019).

    [29] François Goudail*, Xiaobo Li, Matthieu Boffety, Stéphane Roussel, Tiegen Liu, and Haofeng Hu*, “Precision of retardance autocalibration in full-Stokes division-of-focal-plane imaging polarimeters,” Optics Letters 44(22), 5410-5413 (2019).

    [30] Yong Du, Qun Han*, Haofeng Hu*, Mei Sang, Xueru Zhao, Xiaowei Song, Hongyuan Wang, Tiegen Liu, “High-sensitivity Refractive Index and Temperature Sensor Based on Cascading FBGs and Droplet-like Fiber Interferometer,” Sensors and Actuators A: Physical 299(1), 111631 (2019).

    [31] Xiaobo Li, Haofeng Hu*, François Goudail*, Tiegen Liu, “Fundamental precision limits of full Stokes polarimeters based on DoFP polarization cameras for an arbitrary number of acquisitions,” Optics Express 27 (22), 31261-31272 (2019).

    [32] Xiaobo Li, Haofeng Hu*, Lan Wu, Yin Yu, Tiegen Liu, “Impact of intensity integration time distribution on the measurement precision of Mueller polarimetry,” Journal of Quantitative Spectroscopy and Radiative Transfer 231, 22-27 (2019).

    [33] Hui Wang, Haofeng Hu*, Xiaobo Li, Zijian Guan, Wanshan Zhu, Junfeng Jiang, Kun Liu, Tiegen Liu, “An Angle of Polarization (AoP) Visualization Method for DoFP Polarization Image Sensors Based on Three Dimensional HSI Color Space,” Sensors 19, 1713 (2019).

    [34] Xiaobo Li, Haofeng Hu*, Hui Wang, Tiegen Liu, “Optimal Measurement Matrix of Partial Polarimeter for Measuring Ellipsometric Parameters With Eight Intensity Measurements,” IEEE Access 7(3), 1494-31500 (2019).

    [35] Hui Wang, Haofeng Hu*, Xiaobo Li, Lin Zhao, Zijian Guan, Wanshan Zhu, Junfeng Jiang, Kun Liu, Zhenzhou Cheng, Tiegen Liu, “Joint Noise Reduction for Contrast Enhancement in Stokes Polarimetric Imaging,” IEEE Photonics Journal 11(2), 6901010 (2019).

    [36] Xiaobo Li, Haofeng Hu*, Lin Zhao, Hui Wang, Qun Han, Zhenzhou Cheng, Tiegen Liu, “Pseudo-polarimetric method for dense haze removal,” IEEE Photonics Journal 11(1), 6900611 (2019).

    [37] Zijian Guan, François Goudail, Mingxuan Yu, Xiaobo Li, Qun Han, Zhenzhou Cheng, Haofeng Hu*, Tiegen Liu, “Contrast optimization in broadband passive polarimetric imaging based on color camera,” Optics Express 27 (3), 2444-2454 (2019).

    [38] Xiaobo Li, François Goudail, Haofeng Hu*, Qun Han, Zhenzhou Cheng, Tiegen Liu, “Optimal ellipsometric parameter measurement strategies based on four intensity measurements in presence of additive Gaussian and Poisson noise,” Optics Express 26(26), 34529-34546 (2018).

    [39] Xiaobo Li, Haofeng Hu*, Hui Wang, Yin Yu, Lan Wu, Tiegen Liu, “Polarimetric image recovery method combining histogram stretching for underwater imaging,” Scientific Reports 8, 12430 (2018).

    [40] Haofeng Hu, Lin Zhao, Xiaobo Li, Hui Wang, Jingyu Yang, Kun Li, Tiegen Liu*, “Polarimetric image recovery in turbid media employing circularly polarized light,” Optics Express 26(19), 25047-25059 (2018).

    [41] Xiaobo Li, Haofeng Hu*, Hui Wang, Lan Wu, Tiegen Liu, “Influence of noise statistics on optimizing the distribution of integration time for degree of linear polarization polarimetry,” Optical Engineering 57(6), 064110 (2018).

    [42] Haofeng Hu, Lin Zhao, Xiaobo Li, Hui Wang, Tiegen Liu*, “Underwater image recovery under the non-uniform optical field based on polarimetric imaging”, IEEE Photonics Journal 10(1), 6900309 (2018).

    [43] Jiahui Han, Haofeng Hu*, Hui Wang, Bowen Zhang, Xiaowei Song, Zhenyang Ding, Xuezhi Zhang, Tiegen Liu, “Temperature-compensated Magnetostrictive Current Sensor Based on the Configuration of Dual Fiber Bragg Gratings,” Journal of Lightwave Technology 35(22), 4910-4915 (2017).

    [44] Xiaobo Li, Haofeng Hu*, Lan Wu, Tiegen Liu, “Optimization of instrument matrix for Mueller matrix ellipsometry based on partial elements analysis of the Mueller matrix,” Optics Express 25(16), 18872-18884 (2017).

    [45] Haofeng Hu, Lin Zhao, Bingjing Huang, Xiaobo Li, Hui Wang, Tiegen Liu*, “Enhancing visibility of polarimetric underwater image by transmittance correction”, IEEE Photonics Journal 9(3), 6802310 (2017).

    [46] Mingxuan Yu, Hesong Huang, Haofeng Hu*, Lan Wu, Hongchen Zhai, Tiegen Liu, “Colorimetric discrimination for Stokes polarimetric imaging,” Optics Express 25(4), 3765-3773 (2017).

    [47] Tiegen Liu, Jiahui Huan, Haofeng Hu*, “Optical Current Sensor With Dual-Wavelength Configuration for Improving Temperature Robustness,” IEEE Photonics Journal 9(1), 6800210 (2017).

    [48] Mingxuan Yu, Tiegen Liu, Hesong Huang, Haofeng Hu*, Bingjing Huang, “Multispectral Stokes imaging polarimetry based on color CCD,” IEEE Photonics Journal 8(5), 6900910 (2016).

    [49] Bingjing Huang, Tiegen Liu, Haofeng Hu*, Jiahui Han, Mingxuan Yu, “Underwater image recovery considering polarization effects of objects,” Optics Express 24(9), 9826-9838 (2016).

    [50] Xiaobo Li, Haofeng Hu*, Tiegen Liu, Bingjing Huang, Zhanjie Song, “Optimal distribution of integration time for intensity measurements in degree of linear polarization polarimetry,” Optics Express 24(7), 7191-7200 (2016).

    [51] Xiaobo Li, Tiegen Liu, Bingjing Huang, Zhanjie Song, Haofeng Hu*, “Optimal distribution of integration time for intensity measurements in Stokes polarimetry,” Optics Express 23(21), 27690-23699 (2015).

    [52] Bingjing Huang, Tiegen Liu, Jiahui Han, Haofeng Hu*, “Polarimetric target detection under uneven illumination,” Optics Express 23(18), 23603-23612 (2015).

    [53] Haofeng Hu, Tiegen Liu*, Hongchen Zhai, “Comparison of femtosecond laser ablation of aluminum in water and in air by time-resolved optical diagnosis,” Optics Express 23(2), 628-635 (2015).

    [54] Matthieu Boffety, Haofeng Hu*, François Goudail*, “Contrast optimization in broadband passive polarimetric imaging,” Optics Letters 39(23), 6759-6762 (2014).

    [55] Haofeng Hu, Enric Garcia-Caurel, Guillaume Anna, Francois Goudai*l, “Simplified calibration procedure for Mueller polarimeter in transmission configuration,” Optics Letters 39(3), 418-421 (2014).

    [56] Haofeng Hu, Guillaume Anna, Enric Garcia-Caurel, Francois Goudail*, “Maximum Likelihood method for calibration of Mueller polarimeters in reflection configuration,” Applied Optics 52(25), 6350-6358 (2013).

    [57] Haofeng Hu, Guillaume Anna, Francois Goudail*, “On the performance of the physicality-constrained maximum-likelihood estimation of Stokes vector,” Applied Optics 52(27), 6636-6644 (2013).

    [58] Haofeng Hu, Razvigor Ossikovski, Francois Goudail*, “Performance of Maximum Likelihood estimation of Mueller matrices taking into account physical realizability and Gaussian or Poisson noise statistics,” Optics Express, 21(4), 5117-5129 (2013).

    [59] Haofeng Hu, Xiaolei Wang*, Hongchen Zhai, “Neutrals ejection in intense femtosecond laser ablation,” Optics Letters 36(2), 124-126 (2011).

    [60] Haofeng Hu, Xiaolei Wang*, Hongchen Zhai*, “High-fluence femtosecond laser ablation of silica glass: effects of laser-induced pressure,” Journal of Physics D: Appl. Phys. 44(13), 135202 (2011).

    [61] Haofeng Hu, Yang Ji, Yang Hu, Xiaoyan Ding, Xianwen Liu, Jinghui Guo, Xiaolei Wang*, and Hongchen Zhai, “Thermal analysis of intense femtosecond laser ablation of aluminum,” Chinese Physics B 20(4), 044204 (2011).

    [62] 胡浩丰,王晓雷*,郭文刚,翟宏琛*,王攀,“强飞秒激光烧蚀石英玻璃的超快时间分辨光学诊断”,物理学报 60(1), 17901 (2011).

    [63] Haofeng Hu, Xiaolei Wang*, Hongchen Zhai*, Nan Zhang, and Pan Wang, “Generation of multiple stress waves in silica glass in high fluence femtosecond laser ablation,” Applied Physics Letters 97(6), 061117 (2010).

    授权专利

    [1] 胡浩丰,李校博,刘铁根,黄柄菁,江俊峰,刘琨,“基于光强测量积分时间优化的Stokes矢量测量系统及方法”,国家发明专利,已授权,专利号ZL201510546871.8.

    [2] 胡浩丰,李校博,刘铁根,黄柄菁,“基于光强测量积分时间优化的线偏振度测量装置及方法”,国家发明专利,已授权,专利号ZL201511030090.X.

    [3] 胡浩丰,刘铁根,李校博,“一种Mueller矩阵型椭偏仪椭偏参数测量优化的方法”,国家发明专利,已授权,专利号ZL 201710618190.7.

    [4] 胡浩丰,俞明轩,刘铁根,黄柄菁,江俊峰,刘琨,“基于彩色CCD的三波长Stokes矢量偏振测量系统及方法”,国家发明专利,已授权,专利号ZL201510837226.1.

    [5] 胡浩丰,刘铁根,俞明轩,王辉,“基于彩色相机的多光谱彩色偏振成像对比度优化的方法”,国家发明专利,已授权,专利号ZL 201710799658.7.

    [6] 胡浩丰,俞明轩,刘铁根,黄河颂,“基于场景Stokes矢量测量及其RGB图像优化的多物体区分方法”,国家发明专利,已授权,专利号ZL 201610949355.4.

    [7] 胡浩丰,刘铁根,李校博,赵琳,王辉,“基于正交偏振图像拉伸和偏振度关联的图像去雾方法”,国家发明专利,已授权,专利号ZL 201711269877.0.

    [8] 胡浩丰,刘铁根,王辉,“一种基于Stokes偏振图像相关性的偏振图像去噪方法”,国家发明专利,已授权,专利号ZL 201710938746.0.

    [9] 胡浩丰,赵琳,刘铁根,王辉,李校博,“一种在散射环境中基于圆偏振光的偏振图像复原方法”,已授权,专利号ZL 201711459024.3.

    [10] 胡浩丰,韩佳慧,刘铁根,俞明轩,黄柄菁,“基于双波长结构的光学电流互感器的测量方法”,已授权,专利号ZL 201510837480.1.

  • 荣誉奖励

    1) 入选国家高层次青年人才计划,2023

    2) 国家重点研发计划首席青年科学家,2023

    3) 全球前2%顶尖科学家(年度科学影响力排行榜),2023

    4)中国科协“青年人才托举工程”,2017

    5) 天津市首批“青年人才托举工程”,2018

    6) 中国仪器仪表学会“金国藩青年学子奖学金”,2017

    7) 天津市创新人才推进计划“青年科技优秀人才”,2019

    8) 法中科学及应用基金会(FFCSA)博士后奖学金,2011

    9) 中国光学科技奖 二等奖,2018

    10) 天津市“131”创新型人才(第三层次),2015

    11) 天津大学“北洋青年骨干教师”,2015

    12) 天津大学“教书育人先进工作者”,2017

    13) 天津大学沈志康奖教金,2020

    14) 天津大学2015届本科生毕业设计(论文)优秀指导教师,2015

    15) 天津大学2019届本科生毕业设计(论文)优秀指导教师,2019

  • 学术兼职

    1) 中国仪器仪表学会图像科学与工程分会 理事(2017-至今)

    2) 中国光学学会全息与光信息处理专委会 委员 (2018-至今)

    3) 中国光学工程学会计算成像专委会 委员 (2021-至今)

    4) 天津市光学学会 理事(2020-至今)

    5) 国家自然科学基金项目通讯评审专家(2015-至今)

    6) 全国偏振与椭偏测量研讨会青年学术委员(2018—至今)

    7) 国际学术期刊Frontiers in Physics(IF=3.560) Topic Editor

    8) IEEE会员(2019-至今)

    9) OSA会员(2020-至今)

    10) 美国光学学会(OSA)期刊(Optics Letters、Optics Express等)、美国物理学会(AIP)期刊(Journal of Applied Physics等)、英国物理学会(IOP)期刊(Journal of Physics D: Appl. Phys.、Journal of Optics等)、IEEE Transactions on Geoscience and Remote Sensing、IEEE Photonics Journal、IEEE Access、Optics and Lasers in Engineering、Applied Surface Science、Applied Physics B、Journal of Modern Optics、Optics and Laser Technology、Optical Engineering、物理学报、光子学报、红外与激光工程等期刊审稿人。

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