周新磊
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周新磊,山东济宁人,美国光学学会(OSA)会员。主要从事光纤传感技术、表面等离子体激元方面的研究。近年来,主持及参与科研项目20余项,其中主持国家自然科学基金委青年项目1项,参与国家自然科学基金委重大科研仪器研制项目1项,重点国际合作研究项目1项,重点项目1项,面上项目3项。另外主持及参与省部级及企业合作研究项目10余项。近年来发表SCI、EI检索论文40余篇,他引300余次,获授权国家发明专利4项,软件著作权3项,出版教材1部。曾获邀在2015 International Conference on Optical Instrument and Technology国际会议做特邀报告,并担任分会议主席(Session Chair)。担任Sensors and Actuators B: Chemical、Optics Communications、IEEE Sensor Journal等国际期刊审稿人。工作经历:2016.12至今 光电工程与仪器科学学院 副教授,硕士生导师2017.11-2018.11 亚利桑那大学(三大光学中心之一) 访问学者2012.08-2016.12 物理与光电工程学院 讲师,硕士生导师2012.10-2014.08 物理与光电工程学院 博士后 主持或参加代表性科研项目:1. 国家自然科学基金委重大科研仪器研制项目,61727816,白光干涉测量传感通用信号处理系统,695万元,2018/01-2022/12,在研,参加2. 国家自然科学基金国际合作研究项目,61520106013,纳米结构等离子生物传感器的理论与实验研究,2016/01-2020/12,245万元,在研,参加3. 国家重点研发计划青年项目,2016YFC0200600,基于Scheimpflug原理的新型大气激光雷达技术研究,2016/01-2019/12,170万元,在研,参加4. 国家自然科学基金青年科学基金项目,61307105,基于金纳米壳粒子的准分布式光纤表面等离子体共振传感机理研究,2014/01-2016/12,26万元,已结题,主持5. 国家自然科学基金面上项目,51277021,近红外激光光声变压器油溶解气分析技术研究,2013/01-2016/12,80万元,已结题,参加专利 一种悬臂梁与光声池双共振增强型光声光谱检测系统及方法 一种空间相位调制型激光干涉测量仪器及方法 一种单光纤分布温度和定点压力同时测量的方法 一种流体介质界面的光纤传感检测装置及方法 一种测量光纤连接器端面接触力和损耗的方法 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 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 光纤渗压/液位传感器研制, 企事业单位委托科技项目, 2016/03/01-2017/03/31, 进行 光纤井下压力传感器系统研制, 企事业单位委托科技项目, 2014/03/05-2015/12/31, 完成 基于金纳米壳粒子的准分布式光纤表面等离子体共振传感机理研究, 国家自然科学基金项目, 2013/09/25-2016/12/31, 完成 基于光声光谱技术的多气体组分分析仪研发, 企事业单位委托科技项目, 2019/03/01-2020/02/29, 进行 白光干涉测量传感通用信号处理系统, 国家自然科学基金项目, 2017/08/17, 进行 基于Scheimpflug原理的新型大气激光雷达技术研究, 国家科技部 , 2016/07/13, 进行 科研奖励 国家自然科学基金重点项目奖励研究领域
高精度液位传感器光纤传感器在油气井中的应用纳米光子学表面等离子体共振传感器光纤传感技术,涉及各种光纤传感器的机理和应用研究"光纤传感器及其工业应用,光纤传感器油井测试技术,高精度光纤液位传感器纳米光子学"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]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 [3]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- [4]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 [5]Yang, Yang,Tian, Dezhong,Chen, Ke,Zhou, Xinlei,Gong, Zhenfeng,Yu, Qingxu.A Fiber-Optic Displacement Sensor Using the Spectral Demodulation Method[J],JOURNAL OF LIGHTWAVE TECHNOLOGY,2018,36(17):3666-3671 [6]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 [7]Gong, Zhenfeng,Chen, Ke,Yang, Yang,Zhou, Xinlei,Yu, Qingxu.Photoacoustic spectroscopy based multi-gas detection using high-sensitivity fiber-optic low-frequency acoustic sensor[J],SENSORS AND ACTUATORS B-CHEMICAL,2018,260:357-363 [8]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 [9]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 [10]王晓娜,周新磊,韩秀友,荆振国.光电信息类专业实践教学课程新模式研究探索[J],实验室科学,2017,20(4):89-90,94 [11]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 [12]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 [13]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 [14]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 [15]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 [16]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 [17]Zhou X.,Chen K.,Li L.,Gong Z.,Peng W.,Yu Q..Glycoprotein detection by using the surface plasmon resonance technology[A],Asia-Pacific Optical Sensors Conference, APOS 2016,2016 [18]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 [19]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) [20]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 [21]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 [22]Zhou, Xinlei,Chen, Ke,Mao, Xuefeng,Peng, Wei,Yu, Qingxu.High-resolution optical refractometer based on a long-period grating Michelson interferometer using a cross-correlation signal-processing method[J],OPTICAL ENGINEERING,2015,54(12) [23]Chen, Ke,Zhou, Xinlei,Peng, Wei,Yu, Qingxu.A hybrid sensing system for simultaneous Raman-based distributed and FBG-based quasi-distributed measurements[J],SENSORS AND ACTUATORS A-PHYSICAL,2015,234:43-47 [24]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 [25]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 [26]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 [27]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 [28]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 [29]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 [30]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) [31]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) [32]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 [33]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 [34]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 [35]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 [36]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 [37]Liu, Yun,Peng, Wei,Liang, Yuzhang,Zhang, Xinpu,Zhou, Xinlei,Pan, Lujun.Fiber-optic Mach-Zehnder interferometric sensor for high-sensitivity high temperature measurement[J],OPTICS COMMUNICATIONS,2013,300:194-198 [38]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 [39]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 [40]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 [41]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 [42]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 [43]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) [44]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 [45]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 [46]Yao, Wenjuan,Peng, Wei,Zhang, Xinpu,Zhou, Xinlei,Liu, Yun.Self-compensating Fiber Optic Flow Sensor Based On Dual Fiber Bragg Gratings[A],6th International Symposium on Advanced Optical Manufacturing andTesting Technologies (AOMATT) - Design, Manufacturing, and Testing ofSmart Structures, Micro- and Nano- Optical Devices, and Systems,2012,8418 [47]王文华,于清旭,李芳,周新磊,姜心声.基于全石英结构非本征型温度不敏感的光纤压力传感器[J],新型工业化,2012,4:44-49 [48]彭伟,周新磊,潘路军.Fiber-Optic Mach-Zehnder Interferometric Sensor for High-sensitivity High Temperature Measurement[J],Optics Communications,2012 [49]Li H.,Peng W.,Wang Y.,Hu L.,Liang Y.,Zhang X.,Yao W.,Yu Q.,Zhou X..Theoretical analyses of localized surface plasmon resonance spectrum with nanoparticles imprinted polymers[A],2011 Asia Communications and Photonics Conference and Exhibition, ACP 2011,2011,8307 [50]Zhang X.,Liang Y.,Peng W.,Liu Y.,Li H.,Jing Z.,Yu Q.,Zhou X.,Yao W.,Wang Y..Cladding-mode obtained by core-offset structure and applied in Fiber Bragg Grating sensor[A],2011 Asia Communications and Photonics Conference and Exhibition, ACP 2011,2011,8307 [51]Zhou, Xinlei,Yu, Qingxu.Wide-Range Displacement Sensor Based on Fiber-Optic Fabry-Perot Interferometer for Subnanometer Measurement[J],IEEE SENSORS JOURNAL,2011,11(7):1602-1606 [52]Wang, Wenhua,Yu, Qingxu,Wang, Qiaoyun,Zhou, Xinlei.Comprehensive Analysis of Factors Impacting on Output Signal of EFPI Fiber-optic Sensor[A],6th International Symposium on Precision Engineering Measurements andInstrumentation,2010,7544 [53]潘志毅,陈珂,周新磊,于清旭.基于有向图邻接矩阵扩展的产品设计流程导航[J],计算机集成制造系统,2009,30(3):445-450 [54]陈珂,孙曦源,栾茂田,唐小微,周新磊,于清旭.饱和软黏土地基中单桶形基础水平承载力研究[J],港工技术,2008,183(5):40-42标签: 大连理工大学 光电工程与仪器科学学院
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