于清旭
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资料介绍
个人简历
教育经历Education Background1987.9 1990.7 大连理工大学 光学仪器 博士1982.9 1986.7 大连工学院 光学仪器 硕士1978.3 1982.1 大连工学院 应用物理 学士工作经历Work Experience 1982.3 至今 大连理工大学 高校教师1978.3 1982.1 大连工学院 大学本科生1975.7 1978.1 大连市新金县大刘家乡南杨树村 下乡知青专利 一种双光源自校正式光纤分布温度快速测量系统及方法 一种波长循环调谐补偿干涉型传感器工作点漂移的方法及系统 一种增敏的非本征F-P光纤温度传感器 一种波长循环调谐补偿干涉型传感器工作点漂移的方法 一种基于光参量放大的飞秒时间分辨多道锁相荧光光谱仪 一种测量光纤连接器端面接触力和损耗的方法 一种光纤F-P传感器的腔长解调算法 一种增敏的非本征F-P光纤温度传感器的制作方法 一种单光源光纤分布温度与定点压力测量系统及方法 著作成果 光电信息科学与工程专业实验 光电信息科学与工程专业实验 科研项目 油中溶解气体监测装置交叉敏感性分析及研究, 2017/03/13-2017/05/31, 完成 基于光声光谱技术的变压器油中溶解气体分析单元研发, 2015/01/07-2016/12/31, 完成 微量气体光声光谱检测系统研制, 2006/10/16-2007/10/15, 完成 光纤温度.压力传感器系统研发, 2007/11/01-2008/11/01, 完成 光纤式井下压力温度监测系统合作研究, 2007/12/01-2009/12/31, 完成 SAGD水平生产井光纤连续管压力监测技术研究, 2007/12/25-2008/05/01, 完成 基于光声光谱的变压器, 2008/09/01-2011/08/01, 完成 高稳定性低温流动式宽带频可调谐一氧化碳激光合作研究, 2008/10/01-2010/10/01, 完成 准分布光纤式井下温度监测系统合作研发, 2009/07/01-2009/12/31, 完成 高温光纤压力传感器制做及配套服务, 2009/12/18-2011/12/18, 完成 光声光谱技术绝缘油在线监测分析系统研究, 2011/11/01-2012/11/30, 完成 高温高压油井的光纤传感监测技术研究, 辽宁省高等学校科研计划项目, 2008/01/01-2010/12/31, 完成 微型光纤微压传感器件与高分辨率解调方法研究, 高等学校博士学科点专项科研基金项目, 2010/12/02, 完成 近红外激光光声变压器油溶解气分析技术研究, 国家自然科学基金, 2012/09/25-2016/12/31, 完成 基于光纤声波传感的光声微量气体检测技术, 国家自然科学基金, 2006/09/25-2009/12/31, 完成 光声光谱DGA检测方法及装置性能评估, 2017/11/15-2018/02/15, 完成 基于Scheimpflug原理的新型大气激光雷达技术研究, 国家重点研发计划, 2016/07/13, 进行 基于HHT方法的光纤法布里-珀罗传感器解调系统的应用研究?, 辽宁省自然科学基金, 2012/01/01-2015/01/08, 完成 基于光声光谱技术的多气体组分分析仪研发, 2019/03/01-2020/02/29, 进行 科研奖励 国家自然科学基金重点项目奖励 2015年国家技术发明二等奖研究领域
""近期论文
[1]Zhou, Xinlei,Ma, Fengxiang,Ling, Haitao,Yu, Binjun,Peng, Wei,Yu, Qingxu.A compact hydrogen sensor based on the fiber-optic Fabry-Perot interferometer[J],OPTICS AND LASER TECHNOLOGY,2020,124 [2]Wang, Mohan,Yang, Yang,Huang, Sheng,Wu, Jingyu,Yu, Qingxu,Chen, Kevin P..Distributed High-temperature Sensing with Rayleigh Scattering Based In-line Fabry-Perot Interferometers[A],2019 [3]王晓娜,陈珂,周新磊,于清旭.基于光声光谱的微量气体检测实验设计与实现[J],实验技术与管理,2019,36(8):45-48,56 [4]Chen, Ke,Peng, Wei,Yu, Qingxu,Deng, Hong,Guo, Min,Luo, Chen,Liu, Shuai,Zhang, Bo,Ma, Fengxiang,Zhu, Feng,Gong, Zhenfeng.Tube-cantilever double resonance enhanced fiber-optic photoacoustic spectrometer[J],OPTICS AND LASER TECHNOLOGY,2020,123 [5]Chen, Ke,Zhang, Bo,Liu, Shuai,Yu, Qingxu.Parts-per-billion-level detection of hydrogen sulfide based on near-infrared all-optical photoacoustic spectroscopy[J],SENSORS AND ACTUATORS B-CHEMICAL,2019,283:1-5 [6]王文华,周新磊,于清旭.Surface plasmon resonance sensor based on cross-linked chitosan immobilized onto the surface of optimization AgAu composite film for trace copper(II) ions detection[J],Optical Engineering,2019,58(2):27111- [7]Zhou, Xinlei,Li, Li,Lu, Bohan,Chen, Ke,Peng, Wei,Yu, Qingxu.Effects of the damage layer on connection loss of fiber-optic connectors[J],OPTICAL FIBER TECHNOLOGY,2018,46:137-140 [8]Yang, Yang,Ma, Xiaobo,Chen, Ke,Wang, Enyu,Yu, Zhihao,Yu, Qingxu.A high-resolution dynamic fiber-optic inclinometer[J],SENSORS AND ACTUATORS A-PHYSICAL,2018,283:305-312 [9]Chen, Ke,Yu, Zhihao,Gong, Zhenfeng,Yu, Qingxu.Lock-in white-light-interferometry-based all-optical photoacoustic spectrometer[J],OPTICS LETTERS,2018,43(20):5038-5041 [10]Chen, Ke,Guo, Min,Yang, Yang,Liu, Kang,Cai, Wanjin,Yu, Qingxu.A Fiber-Optic Displacement Sensor Based on High-Precision Differential Phase Measurement[J],JOURNAL OF LIGHTWAVE TECHNOLOGY,2018,36(18):4046-4050 [11]陈珂,袁帅,宫振峰,于清旭.基于激光光声光谱超高灵敏度检测SF_6分解组分H_2S[J],中国激光,2018,09:138-144 [12]Chen, Ke,Yu, Qingxu,Gong, Zhenfeng,Guo, Min,Qu, Chao.Ultra-high sensitive fiber-optic Fabry-Perot cantilever enhanced resonant photoacoustic spectroscopy[J],SENSORS AND ACTUATORS B-CHEMICAL,2018,268:205-209 [13]Chen, Ke,Gong, Zhenfeng,Guo, Min,Yu, Shaochen,Qu, Chao,Zhou, Xinlei,Yu, Qingxu.Fiber-optic Fabry-Perot interferometer based high sensitive cantilever microphone[J],SENSORS AND ACTUATORS A-PHYSICAL,2018,279:107-112 [14]Chen, Ke,Yu, Zhihao,Yu, Qingxu,Guo, Min,Zhao, Zhihao,Qu, Chao,Gong, Zhenfeng,Yang, Yang.Fast demodulated white-light interferometry-based fiber-optic Fabry-Perot cantilever microphone[J],OPTICS LETTERS,2018,43(14):3417-3420 [15]陈珂,郭珉,王泽霖,刘伯文,周新磊,于清旭.基于光学相关的光纤法布里-珀罗传感器解调仪[J],光子学报,2018,47(6):60-65 [16]陈珂,袁帅,宫振峰,于清旭.基于光纤声波传感的超高灵敏度光声光谱微量气体检测[J],光学学报,2018,38(3):0328015 [17]陈珂,于清旭.基于激光光声光谱超高灵敏度检测SF6分解组分H2S[J],中国激光,2018 [18]Gong, Zhenfeng,Chen, Ke,Zhou, Xinlei,Yang, Yang,Zhao, Zhihao,Zou, Helin,Yu, Qingxu.High-Sensitivity Fabry-Perot Interferometric Acoustic Sensor for Low-Frequency Acoustic Pressure Detections[J],JOURNAL OF LIGHTWAVE TECHNOLOGY,2017,35(24):5276-5279 [19]Gong, Zhenfeng,Chen, Ke,Yang, Yang,Zhou, Xinlei,Peng, Wei,Yu, Qingxu.High-sensitivity fiber-optic acoustic sensor for photoacoustic spectroscopy based traces gas detection[J],SENSORS AND ACTUATORS B-CHEMICAL,2017,247:290-295 [20]Gong, Zhenfeng,Chen, Ke,Zhou, Xinlei,Yu, Qingxu.Temperature-compensated refractive index sensor based on bent-fiber interference[J],OPTICAL FIBER TECHNOLOGY,2017,36:6-9 [21]Gong, Zhenfeng,Chen, Ke,Wang, Wei,Yang, Yang,Peng, Wei,Yu, Qingxu,Zhou, Xinlei.A pressure-sensitive fiber optic connector for loss analysis of physical contact[J],OPTICAL FIBER TECHNOLOGY,2017,36:134-138 [22]Chen, Ke,Zhou, Xinlei,Gong, Zhenfeng,Yu, Shaochen,Qu, Chao,Guo, Min,Yu, Qingxu.Research on fiber-optic cantilever-enhanced photoacoustic spectroscopy for trace gas detection[A],2017 INTERNATIONAL CONFERENCE ON OPTICAL INSTRUMENTS AND TECHNOLOGY -OPTOELECTRONIC MEASUREMENT TECHNOLOGY AND SYSTEMS,2017,10621 [23]Gong, Z.,Zhou, X.,Chen, K.,Yu, Q..Parylene-C diaphragm-based fiber-optic Fabry-Perot acoustic sensor for trace gas detection[A],2017,10618 [24]Zhou, Xinlei,Chen, Ke,Li, Li,Peng, Wei,Yu, Qingxu.Angle modulated surface plasmon resonance spectrometer for refractive index sensing with enhanced detection resolution[J],OPTICS COMMUNICATIONS,2017,382:610-614 [25]Mao, Xuefeng,Zhou, Xinlei,Gong, Zhengfeng,Yu, Qingxu.An all-optical photoacoustic spectrometer for multi-gas analysis[J],SENSORS AND ACTUATORS B-CHEMICAL,2016,232:251-256 [26]Zhou, Xinlei,Yao, Qiang,Chen, Ke,Gong, Zhenfeng,Peng, Wei,Yu, Qingxu.Loss analysis of physical contact fiber-optic connector induced by the endface geometry and the contact force[J],OPTICAL ENGINEERING,2016,55(4) [27]Mao, Xuefeng,Zhou, Xinlei,Yu, Qingxu.Stabilizing operation point technique based on the tunable distributed feedback laser for interferometric sensors[J],OPTICS COMMUNICATIONS,2016,361:17-20 [28]陈珂,周新磊,彭伟,于清旭.A hybrid sensing system for simultaneous Raman-based distributed and FBG-based quasi-distributed measurements[J],Sensors and Actuators A:Physical,2016,234:43-47 [29]Chen, Ke,Zhou, Xinlei,Yang, Bokai,Peng, Wei,Yu, Qingxu.A hybrid fiber-optic sensing system for down-hole pressure and distributed temperature measurements[J],OPTICS AND LASER TECHNOLOGY,2015,73:82-87 [30]Chen, Ke,Zhou, Xinlei,Peng, Wei,Yu, Qingxu.OFDR Based Distributed Temperature Sensor Using the Three-Channel Simultaneous Radio-Frequency Lock-In Technique[J],PHOTONIC SENSORS,2015,5(3):217-223 [31]Mao, Xuefeng,Zhou, Xinlei,Zhai, Liang,Yu, Qingxu.Dissolved Gas-in-Oil Analysis in Transformers Based on Near-Infrared Photoacoustic Spectroscopy[J],17th International Conference on Photothermal and PhotoacousticPhenomena,2015,36(5-6,SI):940-946 [32]Chen, Ke,Zhou, Xinlei,Yang, Yang,Yu, Qingxu.A hybrid Raman/EFPI/FBG sensing system for distributed temperature and key-point pressure measurements[A],International Conference on Optical Instruments and Technology - OpticalSensors and Applications,2015,9620 [33]Zhou, Xinlei,Chen, Ke,Mao, Xuefeng,Yu, Qingxu,Peng, Wei.Design and manufacture of angle modulated surface plasmon resonance spectrometer[A],International Conference on Optical Instruments and Technology -Optoelectronic Measurement Technology and Systems,2015,9618 [34]Li, Deyong,Li, Yunliang,Li, Hao,Wu, Xianyou,Yu, Qingxu,Weng, Yuxiang.A Q-switched Ho: YAG laser assisted nanosecond time-resolved T-jump transient mid-IR absorbance spectroscopy with high sensitivity[J],REVIEW OF SCIENTIFIC INSTRUMENTS,2015,86(5):053105 [35]Mao, Xuefeng,Tian, Xiaoran,Zhou, Xinlei,Yu, Qingxu.Characteristics of a fiber-optical Fabry-Perot interferometric acoustic sensor based on an improved phase-generated carrier-demodulation mechanism[J],OPTICAL ENGINEERING,2015,54(4) [36]Zhou, Xinlei,Chen, Ke,Mao, Xuefeng,Peng, Wei,Yu, Qingxu.A reflective fiber-optic refractive index sensor based on multimode interference in a coreless silica fiber[J],OPTICS COMMUNICATIONS,2015,340:50-55 [37]Chen, Ke,Zhou, Xinlei,Peng, Wei,Yu, Qingxu.Optical frequency domain reflectometry based single-mode fiber-optic distributed temperature sensor using synchronous polarization scrambling technique[J],OPTICAL ENGINEERING,2015,54(3) [38]周新磊,陈珂,彭伟,于清旭.High-resolution optical refractometer based on a long-period grating Michelson[J],Optical Engineering,2015,54(12):1261081-1261087 [39]陈珂,刘学聪,罗先卫,周新磊,彭伟,于清旭.32通道光纤阵列式高灵敏飞秒激光光谱分析仪[J],光电子·激光,2015,26(1):116-121 [40]Zhou, Xinlei,Wang, Xinhui,Chen, Ke,Mao, Xuefeng,Peng, Wei,Yu, Qingxu.Melamine detection using phase-shift fiber-loop ring-down spectroscopy[J],OPTICS COMMUNICATIONS,2014,333:105-108 [41]Gong, Zhenfeng,Zhang, Xinpu,Liu, Yun,Liu, Zigeng,Yu, Qingxu,Peng, Wei.Inline fiber interference-based refractive-index sensor[J],OPTICAL ENGINEERING,2014,53(11) [42]Guan, Shouhua,Yu, Qingxu.An optical fiber curvature and strain sensor based on holey fiber modal interferometer[J],Sensor Letters,2014,12(9):1337-1340 [43]Peng, Wei,Zhang, Xinpu,Liu, Yun,Zhou, Xinlei,Yu, Qingxu.Temperature characteristics of a core-mode interferometer based on a dual-core photonic crystal fiber[J],APPLIED PHYSICS B-LASERS AND OPTICS,2014,116(1):21-26 [44]Guan, Shouhua,Yu, Qingxu.Index-insensitive curvature sensor based on holey fiber modal interferometer[J],MICROWAVE AND OPTICAL TECHNOLOGY LETTERS,2014,56(7):1709-1711 [45]Guan, Shouhua,Yu, Qingxu.Refractive index sensitivity characteristic of long-period grating in holey fiber with dual-channel measuring method[J],OPTIK,2014,125(11):2612-2615 [46]周新磊,于清旭.Dissolved Gas-in-Oil Analysis in Transformers Based on Near-Infrared Phontoacoustic Spectroscopy[J],Int J Thermophys,2014,10(7):1713-1715 [47]Wu, Zhiying,Zhang, Wang,Wang, Jianwei,Yu, Qingxu.Feature extraction for gas photoacoustic spectroscopy and content inverse based on overcomplete ICA bases[J],OPTICS AND LASER TECHNOLOGY,2013,48:580-588 [48]关寿华,于清旭.光子晶体光纤长周期光栅的谐振波长特性研究[J],应用光学,2013,34(3):537-541,552 [49]李叶芳,于清旭,周新磊,徐嘉伯.简易光纤Bragg光栅测重传感器的制作[J],实验科学与技术,2013,11(2):9-11 [50]李叶芳,于清旭,周新磊.光纤Bragg光栅的制作及其应用[J],实验科学与技术,2013,11(1):23-25 [51]于清旭.Analysis accuracy improvement of gas second harmonic photoacoustic spectroscopy based on independent component analysis[J],Analytical Chemistry Letters,2013,3(1):1-6 [52]于清旭.Photoacoustic spectroscopy detection and extraction of discharge feature gases in transformer oil based on 1.5u tunable fiber laser[J],Infrared Physics & Technology,2013,58(5):86-90 [53]彭伟,周新磊,于清旭.Temperature characteristics of a core-mode interferometer based on a dual-core photonic crystal fiber[J],Applied Physics B: Laser and optics,2013,9462171:1-6 [54]Liu, Yun,Peng, Wei,Zhang, Xinpu,Zhou, Xinlei,Yu, Qingxu.Fiber Optic Anemometer based on Distributed Bragg Reflector Fiber Laser[A],22nd International Conference on Optical Fiber Sensors (OFS),2012,8421 [55]Zhou, Xinlei,Peng, Wei,Yu, Qingxu.Carbon-coated fiber Fabry-Perot sensor for harsh environments[A],22nd International Conference on Optical Fiber Sensors (OFS),2012,8421 [56]Zhou, Xinlei,Yu, Qingxu,Peng, Wei.Simultaneous measurement of down-hole pressure and distributed temperature with a single fiber[J],MEASUREMENT SCIENCE AND TECHNOLOGY,2012,23(8) [57]Wang, Wenhua,Yu, Qingxu,Jiang, Xinsheng.High sensitivity diaphragm-based extrinsic Fabry-Perot interferometric optical fiber underwater ultrasonic sensor[J],OPTOELECTRONICS AND ADVANCED MATERIALS-RAPID COMMUNICATIONS,2012,6(7-8):697-702 [58]Wang, Wenhua,Yu, Qingxu,Li, Fang,Zhou, Xinlei,Jiang, Xinsheng.Temperature-Insensitive Pressure Sensor Based on All-Fused-Silica Extrinsic Fabry-Perot Optical Fiber Interferometer[J],IEEE SENSORS JOURNAL,2012,12(7):2425-2429 [59]Zhou, Xinlei,Li, Lizhu,Yu, Qingxu.Fiber Bragg Grating-Based Quasi-Distributed Temperature Sensor for Down-Hole Monitoring[J],National Conference on Optical Fiber Sensors (OFSC),2012,10(7,SI):1488-1492 [60]于清旭.超薄熔石英玻璃的CO2激光热熔焊接工艺研究[J],中国激光,2012,39(10):47-53标签: 大连理工大学 光电工程与仪器科学学院
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