沈莹 - 哈尔滨工程大学 - 水声工程学院

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沈莹教授博导硕导收藏完善纠错
哈尔滨工程大学水声工程学院
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个人简介

沈莹，女，1984年9月出生，江苏东台人，哈尔滨工程大学教授/博导，美国弗吉尼亚理工大学博士，自2010年起主要从事高精磁传感器和磁异常探测方面的研究，包括矢量磁力仪和梯度计、磁指纹曲线解析技术、电磁无损探伤的研究。作为核心人员参与了由美国国防高级研究计划局 (DARPA)支持的项目“异质结构的非低温的磁传感器”，在全球范围内首次研发出5pT/rtHz (@1Hz)超低噪音ME磁传感器，该高精度低功耗小体积的ME磁传感器适合长距离水下目标物的探测，超长时间监测和组网阵列式/梯度式布局；作为核心人员参与美国海军研究实验室 (ONR)支持的项目“水下仿生机器人水母”，其集成了多种磁传感器用于水下信息采集、水下航行导航，自我能量收集，信息交换等功能。该项突破性的科研成果引起了社会广泛关注，得到了美国CNN等主流媒体的报道。沈莹教授及其团队在IEEE Electron Device Letters，Advanced Materials, Applied Physics Letters, Journal of Magnetism and Magnetic Materials等国际高水平期刊上共发表SCI论文54篇，引用1400余次，具有较强的科研能力和创新精神；受邀为国际国内杂志APL，JAP, Smart Material and Structure，兵工学报等长期担任审稿人；申请和授权专利11项。沈莹教授荣获2017年度‘江苏省创业创新领军人才’计划，2016年度‘张家港市创业创新领军人才’计划，2013年度中国留学基金委‘国家优秀自费博士留学生奖学金’。沈莹教授主持和重点参与的项目有：装备预先研究项目水下目标非声探测技术（30202021501）；军委装备发展部信息系统局项目（31512030101）；国防**H863计划（18-H863-***-07）；国防**某重点项目（KY10500190138）；国防科工局重点实验室稳定支持项目（JCKYS2019604SSJS005）；装备预研基金空间微波技术重点实验室项目（6142411183410）；江苏省创新创业领军人才计划；中船重工船舶建造和设计中心某项目（KY10500190043）；中央高校基本科研项目面向国际学术前沿（重点）（HEUCFG201826）。教育经历 2010年8月–2014年5月，美国弗吉尼亚理工大学，材料科学与工程，博士，导师：Dwight Viehland 2008年8月–2010年5月，美国弗吉尼亚理工大学，生物系统工程，硕士，导师：Justin Barone 2002年9月–2006年6月，中国农业大学，食品科学与工程，工学学士工作经历 2017年8月-至今，哈尔滨工程大学，水声工程学院，教授、博导 2015年8月-2017年7月，江苏多维科技有限公司，高级工程师 2014年6月-2015年5月，美国弗吉尼亚理工大学，助理研究员 2010年8月-2014年5月，美国弗吉尼亚理工大学，科研助理承担项目沈莹教授主持和重点参与的项目：GF科工局重点实验室稳定支持项目（JCKYS2020604SSJS006，30万）；装备预先研究项目水下目标非声探测技术（30202021501，50万）；军委装备发展部信息系统局项目（31512030101，175万）；国防**H863计划（18-H863-***-07，100万）；国防**某重点项目（KY10500190138，130万）；国防科工局重点实验室稳定支持项目（JCKYS2019604SSJS005，20万）；装备预研基金空间微波技术重点实验室项目（6142411183410，40万）；江苏省创新创业领军人才计划（50万）；中船重工船舶建造和设计中心某项目（KY10500190043，36万）；中央级基本科研项目面向国际学术前沿（重点）（HEUCFG201826，50万）。学术交流专题分会场主席，演讲题目：Single-axis ACFM detection system for crack sizing estimation using magnetic signature waveform analysis，会议名称：7th International Conference on Smart Materials and Nanotechnology in Engineering，2019年，哈尔滨，中国演讲题目：A Man-portable Magnetoelectric DC Magnetic Sensor with Extremely High Sensitivity，会议名称：7th International Conference on Smart Materials and Nanotechnology in Engineering, 2019年，哈尔滨，中国邀请报告，演讲题目：地磁异常磁指纹曲线对水下目标物探测技术的研究，会议名称：2019中国电子学会青年科学家俱乐部年会，2019年8月，哈尔滨，中国邀请报告，演讲题目磁探测技术在海洋信息领域的尖端应用，会议名称：第十三届中国电子信息技术年会，2018年4月，苏州，中国演讲题目：Magnetoelectric Sensor Answers for Ferromagnetic Object Detection, 会议名称：Materials Science & Technology (MST) Fall Conference, 2012年10月，匹兹堡，美国演讲题目：AC Magnetic Dipole Localization by Magnetoelectric Sensor, 会议名称：Material Research Society (MRS) Fall Meeting & Exhibit, 2011年11月，波士顿，美国演讲题目：Signal Processing of Integrated Sensors in a Gradiometric Configuration, 会议名称：DARPA HUMS (Heterostructural Uncooled Magnetic Sensors) Program Review, 2010年10月，罗德岛，美国演讲题目：Direct conversion of chemical energy to mechanical work using phosphate-charged peptides, 会议名称：American Institute of Chemical Engineering (AIChE) Annual Conference, 2009年11月, 纳什维尔，美国招生信息博士指导专业：船舶与海洋工程硕士指导专业：船舶与海洋工程本科生授课课程《海洋磁探测技术》，本科生专业选修课专利成果已授权： 1. 一种降低环境共模噪音的磁电复合基磁传感器系统, 中国, 授权号：CN107884729 B 2. 一种基于TMR传感器的磁头磁路结构,中国, 授权号：CN206515953 U 申请： 1. 一种磁电复合材料基高灵敏地磁场传感器, 中国, 201710972601.2 2. 一种基于隧道磁电阻传感器的安全门， 201810522790.8 3. 隧道磁电阻海洋梯度磁力仪， 201810523929.0 4. 一种用于水下监测的海洋磁力探测装置及探测网，201810524002.9 5. 一种针对表面缺陷的无损检测装置及方法，中国，201811550770.8 6. 安全门检测系统以及检测方法，中国， 201811311632 7. 弱磁场信号采集电路，中国，201910150782.X 8. 一种适用于ACFM信号小波去噪的小波参数选择方法，中国，2019100800261210 9. 一种ACFM单轴磁信号评估方法，中国，201910917700.X 荣誉 2018年度青岛市西海岸新区领军人才 2017年度江苏省创新创业领军人才 2016年度张家港创业创新领军人才 2013年度国家优秀自费博士留学生奖学金

研究领域

方向一：目标弱磁探测；方向二：小型化高精度矢量海洋磁传感器的研制；方向三：漏磁无损检测技术;

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

S. Zhao, L. Sun, J. Gao, J. Wang, and Y. Shen*, "Uniaxial ACFM Detection System for Metal Crack Size Estimation Using Magnetic Signature Waveform Analysis," Measurement, vol. 164, p. 8, 2020. J. Wang, Y. Shen*, J. Gao, and L. Sun, "Magnetic moment direction estimation based on magnetic anomaly signature analysis," presented at the International Instrumentation and Measurement Technology Conference 2020, Dubrovnik, Croatia, 2020. J. Wang, Y. Shen*, R. Zhao, C. Zhou, and J. Gao, "Estimation of dipole magnetic moment orientation based on magnetic signature waveform analysis by a magnetic sensor," Journal of Magnetism and Magnetic Materials, vol. 505, p. 8, 2020. J. Gao, L. Sun, S. Zhao, and Y. Shen*, "Enhanced ACFM detection performance by multi-parameter synergy analysis," Insight - Non-Destructive Testing and Condition Monitoring, vol. 62, p. 5, 2020 Y. Shen, J. Wang, J. Shi, S. Zhao, and J. Gao, "Interpretation of Signature Waveform Characteristics for Magnetic Anomaly Detection Using Tunneling Magnetoresistive Sensor," Journal of Magnetism and Magnetic Materials, vol. 484, p. 8, 2019 J. Gao, J. Wang, L. Zhang, Q. Yu, Y. Huang, and Y. Shen*, "Magnetic Signature Analysis for Smart Security System Based on TMR Magnetic Sensor Array," IEEE Sensors Journal, vol. 19, p. 7, 2019 Y. Shen, D. Ma, and J. Gao, "A Man-Portable Magnetoelectric DC Magnetic Sensor With Extremely High Sensitivity," IEEE Electron Device Letters vol. 39, 2018. Y. Shen, J. Gao, Y. Wang, J. Li, and D. Viehland, “High non-linear magnetoelectric coefficient in Metglas/PMN-PT laminate composites under zero direct current magnetic bias,” Journal of Applied Physics, vol 115, p. 094102, 2014. Y. Shen, J. Gao, Y. Wang, P. Finkel. J. Li, and D. Viehland , “Flux distraction effect on magnetoelectric laminate sensors and gradiometer," Journal of Applied Physics, vol 114, p.134104, 2013. Y. Shen, D. Hasanyan, J. Gao, Y. Wang, J. Li, and D. Viehland, “ Magnetic signature study by magnetoelectric laminate sensor,” Smart Materials and Structures, vol 22, p. 095007, 2013. Y. Shen, J. Gao, Y. Wang, P. Finkel. J. Li, and D. Viehland, "Piezomagnetic strain-dependent non-linear magnetoelectric response enhancement by flux concentration effect," Applied Physics Letters, vol. 102, p. 172940, 2013. Y. Shen, K. L. McLaughlin, J. Gao, M. Li, J. Li, and D. Viehland, "Effective Optimization of Magnetic Noise for a Metglas/Pb(Zr,Ti)O3 Magnetoelectric Sensor Array in an Open Environment," Materials Letters, v 91, p.307-310, 2013. Y. Shen, K. L. McLaughlin, J. Gao, D. Gray, L. Shen, Y. Wang, M. Li, D. Berry, J. Li, and D. Viehland, "AC magnetic dipole localization by a magnetoelectric sensor," Smart Materials and Structures, vol. 21, p. 065007, 2012. Y. Shen, J. Gao, Y. Wang, J. Li, and D. Viehland, "Thermal stability of magnetoelectric sensors," Applied Physics Letters, vol. 100, p. 173505, 2012. Y. Shen, K. McLaughlin, J. Gao, D. Gray, D. Hasanyan, Y. Wang, J. Li, and D. Viehland, "Metglas/ Pb(Mg1/3Nb2/3)O3–PbTi O3 Magnetoelectric Gradiometric Sensor with High Detection Sensitivity," IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 59, p2111-2115, 2012. Y. Shen, J. Gao, D. Hasanyan, Y. Wang, L. Menghui, J. Li, and D. Viehland, "Investigation of vehicle induced magnetic anomaly by triple-axis magnetoelectric sensors," Smart Materials and Structures, vol. 22, p. 115007, 2012. Y. Shen, J. Gao, L. Shen, D. Gray, J. Li, P. Finkel, D. Viehland, X. Zhuang, S. Saez, and C. Dolabdjian, "Analysis of the environmental magnetic noise rejection by using two simple magnetoelectric sensors," Sensors and Actuators A: Physical, vol. 171, pp. 63-68, 2011. Y. Wang, J. Gao, M.Li, Y. Shen, D. Hasanyan, J. Li, and D. Viehland, “A review on equivalent magnetic noise of magnetoelectric laminate sensors,” Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol. 372, p. 20120455, 2014. M.Li, Y. Wang, Y. Shen, J. Gao, J. Li, and D. Viehland, “Structural dependence of nonlinear magnetoelectric effect for magnetic field detection by frequency modulation,” Journal of Applied Physics, vol 114, p. 144501, 2013. Y. Wang, Y. Shen, J. Gao, M.Li, J. Li, and D. Viehland, "Nonlinear magnetoelectric response of a Metglas/piezofiber laminate to a high-frequency bipolar AC magnetic field," Applied Physics Letters, vol 102, p. 102905, 2013. J. Gao, Y. Shen, P. Finkel, J. Blottman, J. Li, and D. Viehland, "Geomagnetic field tuned frequency multiplication in Metglas/Pb(Zr, Ti)O3 heterostructure," Materials Letters, vol. 88, p. 47-50, 2012. J. Gao, Z. Wang, Y. Shen, M. Li, Y. Wang, P. Finkel, J. Li, and D. Viehland, "Self-powered low noise magnetic sensor," Materials Letters, vol. 82, p. 178-180, 2012 D. Hasanyan, J. Gao, Y. Wang, R. Viswan, Y. Shen, J. Li, and D. Viehland, "Theoretical and experimental investigation of magnetoelectric effect for bending-tension coupled modes in magnetostrictive-piezoelectric layered composites," Journal of Applied Physics, vol. 112, p. 013908, 2012. J Gao, D Hasanyan, Y Shen, Y Wang, J Li, D Viehland，’Giant resonant magnetoelectric effect in bi-layered Metglas/Pb (Zr, Ti) O3 composites’, Journal of Applied Physics 112 (10), 104101, 2012 D Hasanyan, Y Wang, J Gao, M Li, Y Shen, J Li, D Viehland, ‘Modeling of resonant magneto-electric effect in a magnetostrictive and piezoelectric laminate composite structure coupled by a bonding material’, Journal of Applied Physics 112 (6), 064109, 2012. J Gao, Y Wang, M Li, Y Shen, J Li, D Viehland, ‘Quasi-static (f < 10−2 Hz) frequency response of magnetoelectric composites based magnetic sensor’, Materials Letters 85, 84-87, 2012. Y. Wang, J. Gao, M.Li, D. Hasanyan, Y. Shen, J. Li, and D. Viehland, “Ultralow equivalent magnetic noise in a magnetoelectric Metglas/Mn-doped Pb (Mg1/3Nb2/3) O3-PbTiO3 heterostructure ," Applied Physics Letters, vol. 101, p. 022903, 2012. J. Gao, Y. Shen, Y. Wang, P. Finkel, J. Li, and D. Viehland, "Magnetoelectric Bending-Mode Structure Based on Metglas/Pb(Zr,Ti)O(3) Fiber Laminates," IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 58, p. 1545-1548, 2011. J. Gao, J. Zhai, Y. Shen, L. Shen, D. Gray, J. Li, P. Finkel and D. Viehland, "Differential-Mode Vibrational Noise Cancellation Structure for Metglas Pb(Zr,Ti)O(3) Fiber Magnetoelectric Laminates," IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, vol. 58, p. 1541-1544, 2011. L. Shen, M. Li, J. Gao, Y. Shen, J. Li, D. Viehland, X. Zhuang, S. Saez, and C. Dolabdjian, "Magnetoelectric nonlinearity in magnetoelectric laminate sensors," Journal of Applied Physics, vol. 110, p. 114510, 2011. J. Gao, D. Gray, Y. Shen, J. Li, and D. Viehland, "Enhanced dc magnetic field sensitivity by improved flux concentration in magnetoelectric laminates," Applied Physics Letters, vol. 99, p. 153502, 2011. N. K. Budhavaram, J. Miler, Y. Shen, J. Barone, "Protein substitution affects glass transition temperature and thermal stability," J Agric Food Chem, vol. 58, p. 9549-9555, 2010.

学术兼职

IEEE会员中国电子学会会员苏州工信局专家 ‘Sensors’ 期刊审稿人 ‘IEEE Sensors Journal’ 期刊审稿人 ‘兵工学报’ 期刊审稿人

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