1. 首 页-研究生招生-导师简介
张文涛

张文涛,男,博士,研究员士生导师。

卢嘉锡青年科学家奖获得者,中国科学院青年创新促进会会员,北京市科技新星,半导体所青年科技奖获得者。

2008年毕业于中国科学院半导体研究所现任光电系统实验室研究员中国科学院大学岗位教授长期从事光纤器件与光纤传感技术的研究成果应用于地震监测、石油勘探、交通工程、深海探测领域与中石油、中石化、铁路总公司、航空航天、中国地震局等行业单位保持长期紧密合作。

张文涛博士累计发表论文200余篇,以第一发明人申请专利100余项,获得授权70获得省部级科技进步一等奖2技术发明一等奖1,作为项目/课题负责人承担国家、省部级和横向课题20余项张文涛博士现任全国专业计量技术委员会委员、中国光学工程学会光纤传感专家委员会委员中国地震监测预报标准化技术委员会委员、中国地震局地震观测技术研究院光纤地震与地球物理观测方向带头人、中国地震局地球物理研究所客座教授、哈尔滨工程大学、石家庄铁道大学兼职研究生导师Opt. ExpressOpt. Lett.IEEE Photon. Technol. Lett.J. Lightwave Technol.等二十余个学术期刊的审稿人

主要研究领域方向

研究领域:光纤传感与探测技术。研究方向:光纤激光传感器,低频高精度光纤应变传感器,光纤布拉格光栅传感器,光纤FP传感器,以及光纤传感器在石油勘探、声波探测、海洋地球物理以及轨道交通等领域的应用。

联系方式:

E-mail: zhangwt@semi.ac.cn 电话:010-82304119

在研项目项目/课题负责人)

1. 地下基础设施工程大数据融合分析与深度挖掘技术(国家重点研发计划)

2. 六分量光纤地震仪基础理论与关键技术研究(国家自然科学基金重点项目)

3. 面向海洋地球物理研究的光纤激光水下多参量传感器(国家自然科学基金面上项目)

4. 适用于极端环境的光纤地震噪音成像系统研发及其在典型裂谷区的应用研究(中科院科研装备研制项目)

5. 宽频带光纤地震数据采集仪器与系统研发(中科院科研装备研制项目)

6. 南黄海深井观测系统(横向课题)

7. 光纤综合观测台站(横向课题)

8. 南海深井观测系统(横向课题)

结题项目项目/课题负责人)

1. 三分量光纤海底磁场传感器(科技部863课题,课题负责人)

2. 组合式海底地震采集节点标定装置(国家重大科研装备研制专项,课题负责人)

3. 海底地震光纤检波器研制(科技部863课题,子课题负责人)

4. 阵列式光纤传感系统(国家重点研发计划,课题负责人)

5. 高精度光纤光栅温度与应变传感器(中国地震局,课题负责人)

6. 高精度光纤光栅地震仪(中国地震局,课题负责人)

7. 光纤光栅流量传感器(吉林省科技厅,课题负责人)

8. 光纤心内压传感器(北京市科委,课题负责人)

9. 基于光纤传感的重载列车运行危险状态监测技术(科技部863课题,课题负责人)

10. 三维光纤激光检波器关键技术及其在海底地震仪中的应用研究(国家自然科学基金面上项目,课题负责人)

11. 基于光纤传感器的城市轨道交通运行安全状态监测技术(北京市科委,课题负责人)

5代表论文(*通信作者):

1. Jianxiang Zhang, Wenzhu Huang, Wentao, Zhang*, et.al., (2022). Improved multi-channel interferometric fiber-optic sensor demodulation based on the Goertzel algorithm. Optics Express, 30(7), 10929-10941.

2. Zehua Zhao, Bing Lv, Bing Liao, Wentao Zhang, et.al., (2022). Effect of carbon fiber reinforcement on the compressive and thermal properties of hollow glass microspheres/epoxy syntactic foam. Journal of Materials Science, 57(5), 3396-3404.

3. Bing Lv, Wentao, Zhang*, et.al. (2022). Switchable and compact dual-wavelength random fiber laser based on random Bragg grating array. Optical Fiber Technology, 70, 102858.

4. Huicong, Li, Wentao, Zhang*, et.al. (2022). Fiber optic jerk sensor. Optics Express, 30(4), 5585-5595.

5. Heng, Zhang, Wentao, Zhang, Wenzhu, Huang, et.al., (2022). A new application of fiber seismometer in the Yigong Lake, Tibetan Plateau. Chinese Journal of Geophysics.

6. Jianxiang Zhang, Wenzhu Huang, Wentao, Zhang*, et.al., (2021). "Demonstration of High-resolution DFB Fiber Laser Acoustic Emission Sensing System for CFRP Laminates," IEEE Sensors Journal, 21(17), 18806-18814.

7. Jianxiang Zhang, Wenzhu Huang, Wentao, Zhang*, et.al., (2021)."Improved DFB-FL sensor interrogation with low harmonic distortion based on extended Kalman filter," Journal of Lightwave Technology, 39(15), 5183-5190.

8. Jianxiang Zhang, Wenzhu Huang, Wentao, Zhang*, et.al. (2021). Train-Induced Vibration Monitoring of Track Slab under Long-Term Temperature Load Using Fiber-Optic Accelerometers. Sensors, 21(3), 787.

9. Bing Lü, Wentao, Zhang*, et.al. (2021). Random Bragg-grating-based wavelength-tunable random fiber laser with a full-open cavity. Chinese Optics Letters, 19(9), 091203.

10. Huicong, Li, Wentao, Zhang*, et.al. (2021). Design of low frequency fiber optic Fabry–Perot seismometer based on transfer function analysis. Chinese Optics Letters, 19(5), 051201.

11. Wenzhu Huang, Wentao Zhang*, et.al. (2020). Demonstration of multi-channel fiber optic interrogator based on time-division locking technique in subway intrusion detection. Optics Express, 28(8), 11472-11481.

12. Shuaijie Miao, Wentao Zhang*, et.al. (2020). High-resolution random fiber laser acoustic emission sensor. Optics Express, 28(9), 12699-12708. doi:10.1364/OE.389135

13. Shuaijie Miao, Wentao Zhang*, et.al. 2019. "High-Resolution Static Strain Sensor Based on Random Fiber Laser and Beat Frequency Interrogation." IEEE Photonics Technology Letters 31(18):1530-33.

14. Wentao Zhang, Zhaogang Wang et.al. "Optical Fiber Ocean Bottom Vector Magnetometer Array." Optical Engineering 57, (2018): 6.

15. Peng Cui, Wentao Zhang* and Ying Song. "High Resolution Inclinometer Based on Vertical Pendulum and Fiber Bragg Grating Fabry-Perot Cavity." Chinese Optics Letters 16, no. 11 (2018): 4.

16. Wenzhu Huang, Wentao Zhang*, et.al. "Broadband Fbg Resonator Seismometer: Principle, Key Technique, Self-Noise, and Seismic Response Analysis." Optics Express 26, no. 8 (2018): 10705-10715.

17. Peide Liu, Wenzhu Huang, Wentao Zhang* and Fang Li. "Ultrahigh Resolution Optic Fiber Strain Sensor with a Frequency-Locked Random Distributed Feedback Fiber Laser." Optics Letters 43, no. 11 (2018): 2499-2502.

18. Rui Ma, Wentao Zhang*, et.al. "Dfb Fiber Laser Sensor for Simultaneous Measurement of Acoustic and Magnetic Fields." Chinese Optics Letters 16, no. 6 (2018): 5.

19. Zhaogang Wang, Wentao Zhang*, et.al. "A Fiber Optic Accelerometer-Magnetometer." Journal of Lightwave Technology 35, no. 9 (2017): 1732 - 1737.

20. P. Liu, W. Huang, Wentao Zhang* and F. Li. "An EMD-SG Algorithm for Spectral Noise Reduction of FBG-FP Static Strain Sensor." IEEE Photonics Technology Letters 29, no. 10 (2017): 814 - 817.

21. Tan Yang, Ying Song, Wentao Zhang* and Fang Li. "Acoustic Emission Detection Using Intensity-Modulated DFB Fiber Laser Sensor." Chinese Optics Letters 14, no. 12 (2016): 120602.

22. Wentao Zhang*, Zhaogang Wang et.al. Fiber laser sensors for micro seismic monitoring. Measurement 79, 203-210. 2016.

23. Wenzhu Huang, Shengwen Feng, Wentao Zhang*, Fang Li, DFB fiber laser static strain sensor based on beat frequency interrogation with a reference fiber laser locked to a FBG resonator. Optics Express 24 (11), 12321-12329. 2016.

24. Zhaogang Wang, Wentao Zhang*, et.al. (2015) Liquid-Damped Fiber Laser Accelerometer: Theory and Experiment. Sensors Journal, IEEE 15 (11), 6360-6365..

25. Zhaogang Wang, Wentao Zhang*, et.al. (2015) Optoelectronic hybrid fiber laser sensor for simultaneous acoustic and magnetic measurement. Optics Express 23 (19), 24383-24389.

26. Wenzhu Huang, Tengkun Zhen, Wentao Zhang*, et.al. (2015) A High-Resolution Demodulation Algorithm for FBG-FP Static-Strain Sensors Based on the Hilbert Transform and Cross Third-Order Cumulant. Sensors 15 (5), 9928-9941.

27. Wenzhu Huang, Wentao Zhang*, Fang Li, (2015) Swept optical SSB-SC modulation technique for high-resolution large-dynamic-range static strain measurement using FBG-FP sensors. Optics Letters 40 (7), 1406-1409

© 2016 中科院半导体所 版权所有

地址:北京市海淀区清华东路甲35号    邮编:100083

© 2016 中科院半导体所 版权所有

地址:北京市海淀区清华东路甲35号    邮编:100083

中科院半导体所 | 中国科学院大学 | 中国科学院

E-mail:yjsb@semi.ac.cn    电话:010-82304321