School of Precision Instrument and Optoelectronics Engineering
Lecturer
Instrument Science and Technology
13820454294
wtf@tju.edu.cn
Room 335, No. 17 Building, No. 92 Weijin Road, Nankai District, Tianjin
Wu Tengfei is an lecturer and master's supervisor in School of Precision Instrument & Opto-electronics Engineering at Tianjin University since 2013. Dr. Wu is the youth committee member of Precision Engineering sub-Society of China Instrument and Control Society. He received his B.S. , M.S. and Ph.D. degrees from Tianjin University in 2008, 2010 and 2013, respectively. His scientific research is in the area of laser sensing and imaging technology and magnetohydrodynamics inertial sensing technology. He has published over 20 journal papers in prestigious journals such as Journal of Physical Chemistry C,Optics Express,Plasmonics,Sensors & Actuators A,IEEE Sensors Journal,Sensors,Sensor Review, etc. He was awarded the First Prize of Science and technology Progress Award of Chinese Society for Measurement (2015) and the First Prize of Science and technology Progress Award of Tianjin, China (2013). In addition, he participates in compiling the book Measurement and Control Circuit, a text used at many universities around China.
- Ph. D.| Tianjin University| Instrument Science and Technology| 2013
- Master's Degree| Tianjin University| Measuring Technology and Instrument| 2010
- Bachelor's Degree| Tianjin University| Measuring and Controlling Technologies and Instruments| 2008
- Laser sensing and imaging based on self-mixing interferometry.
Design compact sensing and imaging system based on laser feedback interferometry for detecting disease of oral mucosa. - Weak opto-electronic signal detecting.
Detect weak opto-electronic signal through low-noise signal processing method, including low-noise electric circuits, digital signal processing, electromagnetic shielding, etc. - Ultrasensitive plasmonic sensing.
Design novel plasmonic sensor to detect weak local environment change, such as refractive index, magnetic field and vibration. - Magnetohydrodynamics inertial sensing.
Detect the angular velocity of high frequency based on Magnetohydrodynamics.
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2013.12-2019.12
Precision Instrument Engineering Department | School of Precision Instrument and Opto-electronics Engineering
- Papers
- [1] Tunable localized hybrid plasmon modes and Fano resonances in Au core-semishell
- [2] Quantitative Analysis Method of Error Sources in Magnetohydrodynamic Angular Rate Sensor for Structure Optimization
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- [3] Modified analytical model of magnetohydrodynamics angular rate sensor for low-frequency compensation
- [4] Study on magnetohydrodynamics angular rate sensor under non-uniform magnetic field
- [5] Error analysis of theoretical model of angular velocity sensor based on magnetohydrodynamics at low frequency
- [6] Approach of Self-mixing Interferometry Based on Particle Swarm Optimization for Absolute Distance Estimation
- [7] Absolute distance estimation with improved genetic algorithm in laser self-mixing scheme
- [8] Tunable plasmon resonances and two-dimensional anisotropy of angular optical response of overlapped nanoshells
- [9] Tunable plasmon resonances and enhanced local fields of spherical nanocrescents