杨振

基本信息 科学研究 论文著作 招生信息 新闻动态 新建主栏目 基本信息 名称 杨振，副研究员，博士生导师，光电子信息科学与技术系教师、哈尔滨工业大学可调谐激光国家级重点实验室成员。长期从事光生物调节技术、新体制激光雷达技术、高能激光应用技术、激光干扰技术和激光燃烧诊断技术等科研工作，发表SCI/EI论文30余篇，授权国家专利6项。主持国家自然科学基金青年基金、某部重点预研基金、某委创新领域基金等项目10余项，现任《飞控与探测》期刊青年编委。作为合著者，出版英文专著《Laser Technology and its Applications》。 学术兼职 成果名称 1. 国家自然科学基金通讯评议专家，2023—至今 2. 教育部硕士毕业论文抽检评审专家，2023—至今 3.《飞控与探测》期刊青年编委，2021—至今 招生信息 名称 硕士生1人/年 本科生1人/年 博士生从2025年开始招生，1人/年 联系邮箱：sailoryz@163.com、sailoryz@hit.edu.cn 工作、研究经历 名称 2021.12—至今：哈尔滨工业大学航天学院光电子信息科学与技术系，副研究员 2024.04—至今：哈尔滨工业大学航天学院光电子信息科学与技术系，博士生导师 2020.04—至今：哈尔滨工业大学航天学院光电子信息科学与技术系，硕士生导师 2017.03—2021.12：哈尔滨工业大学电气工程及自动化学院/航天学院，助理研究员 2017.03—2023.03：哈尔滨工业大学仪器科学与技术博士后流动站，博士后 2011.09—2016.12：哈尔滨工业大学物理电子学，博士研究生，获工学博士学位 2009.09—2011.06：哈尔滨工业大学粒子物理与原子核物理，硕士研究生，获理学硕士学位 2005.09—2009.06：中国矿业大学（徐州）应用物理学，本科，获理学学士学位 研究领域 名称 一、新型智能激光防护材料光学性能研究 二、新型激光光场调控与整形技术 三、新体制激光微多普勒雷达探测与识别技术 科研项目 项目名称 基于新型双向PLIF的高精度稳态燃烧场活泼自由基浓度定量测量技术 项目来源 国家自然科学基金青年基金项目 开始时间 结束时间 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 ×××性能评价 项目来源 某部重点领域预研基金项目 开始时间 结束时间 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 ×××关键技术 项目来源 某部创新特区基金项目 开始时间 结束时间 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 高精度高能激光靶斑测量系统关键技术 项目来源 黑龙江省博士后面上资助项目 开始时间 结束时间 项目经费 担任角色 项目类别 项目状态 简单介绍 项目名称 ×××推广 项目来源 某部技术基础项目 开始时间 结束时间 项目经费 担任角色 项目类别 项目状态 简单介绍 奖项成果 奖项名称 第二届中国军民两用技术创新应用大赛优胜奖 获奖时间 2017.9 完成人 康为民、张建隆、郭鑫民，杨振 所获奖项 简单介绍 出版物 出版物名称 Laser Technology and its Applications 作者 Simona Delia Nicoara, Yachen Gao, Degui Kong, Zhen Yang, Xin Yu, Jiangbo Peng, Jianlong Zhang, Amir Reza Sadrolhosseini, Babar Ibrahim Muhammad, Mingjun Chi, Ole Jensen, Anders Hansen, Paul Petersen Simona 出版时间 2019 出版社 IntechOpen 简单介绍 论文期刊 论文标题 A beam energy homogenizing method with total reflection beam-homogenized cavity for planar laser diagnostics 作者 Zhen Yang , Yingjie Song , Xiangyan Yu, Jianlong Zhang , Yong Zhang 发表时间 2023.5.26 期刊名称 Optics and Laser Technology 期卷 165 简单介绍 论文标题 Reflection and Thermal Characteristics of a Novel Reflective Phase-Change Coating Irradiated by High-Power Continuous Laser 作者 Zhen Yang, Lili Zhang, Yong Zhang, Xinmin Guo, Kaifeng Chen, Kaichang Lu, Jianlong Zhang 发表时间 2022 期刊名称 Ceramics International 期卷 48(8): 11365-11377 简单介绍 论文标题 High-Precision Surface Scattering Measurement System and Error Analysis Applied in Laser Protective Materials Diagnostics 作者 Zhen Yang, Yanbo Yang, Yong Zhang, Xinmin Guo, Kaichang Lu, Jianlong Zhang 发表时间 2021 期刊名称 Applied Sciences 期卷 11(20): 9457 简单介绍 论文标题 Investigation of Stray Radiation Suppression in Infrared Imaging System Using a Novel Broadband and High-Absorption Ceramic Coating 作者 Zhen Yang, Xinmin Guo, Songtao Lu, Yong Zhang, Haili Hu, Kaichang Lu, Jianlong Zhang 发表时间 2021 期刊名称 Applied Sciences 期卷 11(11): 4952 简单介绍 论文标题 Effects of N2, CO2 and H2O Dilutions on Temperature and Concentration Fields of OH in Methane Bunsen Flames by Using PLIF Thermometry and Bi-Directional PLIF 作者 Zhen Yang, Xin Yu, Jiangbo Peng, Liyuan Wang, Zhiwei Dong, Xiaohui Li, Shaozeng Sun, Shun Meng, Huanhuan Xu 发表时间 2017 期刊名称 Experimental Thermal and Fuild Science 期卷 81: 209-222 简单介绍 论文标题 Two-Dimensional Temperature Characteristics of Syngas Flames with Nitrogen, Carbon Dioxide and steam diluents by Planar Laser-Induced Fluorescence Thermometry 作者 Zhen Yang, Jiang-Bo Peng, Xin Yu, Shao-Zeng Sun, Shun Meng, Huan-Huan Xu 发表时间 2016 期刊名称 Spectroscopy Letters 期卷 49(7): 482-490 简单介绍 论文标题 Quantitative Measurements of One-Dimensional OH Absolute Concentration Profiles in a Methane/Air Flat Flame by Bi-Directional Laser-Induced Fluorescence 作者 Xin Yu, Zhen Yang, Jiangbo Peng, Lei Zhang, Yufei Ma, Chaobo Yang, Xiaohui Li, Rui Sun 发表时间 2015 期刊名称 Chinese Physics B 期卷 24(11): 114204 简单介绍 招生信息 名称 硕士生1人/年 本科生1人/年 博士生从2025年开始招生，1人/年 联系邮箱：sailoryz@163.com、sailoryz@hit.edu.cn 个人新闻 新闻标题 硕士生杨玙璠在光学期刊《Sensors》发表论文 发布时间 2024.3 Abstract: Micro-Doppler time-frequency analysis has been regarded as an important parameter extraction method for conical micro-motion objects. However, the micro-Doppler effect caused by micro-motion can modulate the frequency of lidar echo, leading to coupling between structure and micro-motion parameters. Therefore, it is difficult to extract parameters for micro-motion cones. We propose a new method for parameter extraction by combining the range profile of a micro-motion cone and the micro-Doppler time-frequency spectrum. This method can effectively decouple and accurately extract the structure and the micro-motion parameters of cones. Compared with traditional time-frequency analysis methods, the accuracy of parameter extraction is higher, and the information is richer. ZhenYang , Yufan Yang, Manguo Liu, Yuan Wei, Yong Zhang*, Jianlong Zhang**, Xue Liu, Xin Dai. Decoupling and parameter extraction methods for conical micro-Motion object based on FMCW lidar. Sensors, 2024. 新闻标题 硕士生焦丹在光学期刊《Microwave and Optical Technology Letters》发表论文 发布时间 2024.1 Abstract: To solve the problem of target recognition for flying‐birds and biomimetic flapping‐wing unmanned aerial vehicles (UAVs), a rectangular‐trapezoidal composite scattering model for lidar detection of bird wings has been proposed and established. According to the model, the influence of different line‐of‐sight angles on the time–frequency distribution characteristics of laser micro‐Doppler under the same flapping wing motion was simulated and studied. Then, the flapping‐wing frequency and maximum frequency shift are extracted based on the two‐dimensional Fourier transform and the least squares method. When signal noise ratio = 5 dB, the accuracy rate of flapping‐wing frequency extraction can reach at 100%, the maximum relative error of frequency shift for inner contour extraction is less than 3.0%, and the maximum relative error of frequency shift for outer contour extraction is less than 7.2%. Zhen Yang, Dan Jiao, Xin Dai, Yong Zhang*, Jianlong Zhang**. Simulation and parameter extraction of flying-bird motion echo based on laser micro-Doppler effect. Microwave and Optical Technology Letters, 2024, 66(1): e34000. 新闻标题 硕士生宋英杰在国际著名杂志《Optics & Laser Technology》发表论文 发布时间 2023.4 Abstract: The non-uniformity of sheet-beam energy seriously limits the quantitative measurement in planar laser combustion diagnostics. A novel beam energy homogenizing method with total reflection beam-homogenized cavity is proposed to improve the uniformity of sheet-beam. The process of energy homogenizing in total reflection homogenizing cavity has been studied theoretical based on the proposed virtual light source superposition method. The influences of structure parameters and beam coupling parameters on the uniformity has been investigated. By establishing the shaping optics of the total reflection homogenizer, the sheet-beam with height of 30 mm has been achieved experimentally. The experimental results show that the uniformity of sheet-beam can be well maintained in the range of designed detection length of 60 mm. It is found that the maximum uniformity can reach up to 97.1%, which is much better than other known methods. Zhen Yang, Yingjie Song, Xiangyan Yu, Jianlong Zhang*, Yong Zhang**. A beam energy homogenizing method with total reflection beam-homogenized cavity for planar laser diagnostics. Optics and Laser Technology, 2023, 165: 109520.