School of Precision Instrument and Optoelectronics Engineering
Professor
Optical engineering
022-27404459
022-27409621
jiangjfjxu@tju.edu.cn
408, 26 building-C, No.92 Weijin Road, Nankai District, Tianjin, China
Junfeng Jiang is currently a Professor of College of Precision Instrument and Optoelectronics Engineering at Tianjin University. In recent years, he mainly engages in the optical fiber sensor and photoelectric detection technology research. He is the principle investigator of 15 research projects, which are funded by the National Natural Science Foundation of China, National 973 project, National key scientific instrument and equipment development project etc. He published 197 peer-reviewed journal and conference papers, and presented 5 international conference invited talks. Published 3 books, two of them are funded by National Science and Technology Academic Book Publication Fund. He has been issued 64 invention patents, including 5 United State patents and 59 China patents. He served as editorial board member of journal ‘Optics & Optoelectronic Technology’, the council member of Tianjin Optical Society. He is vice director of Institute of Optical Fiber Sensing of Tianjin University.
- Doctor's degree| Tianjin University| Optical Engineering| 2004
- Master's degree| Tianjin University| Dynamical Mechanics & Engineering| 2001
- Bachelor's degree| Southwest University of Science and Technology| Automobile and tractor| 1998
- Optical fiber sensing
- Photoelectric detection technology
- Optical Fabry-Perot interferometer
- Fiber Bragg Grating
- Optofludics
- Photoelectric detection Engineering
- Photoelectric detection technology
- Engineering Optics
- Photoelectric detection technology
- Engineering Optics
- Photoelectric detection technology and system
- Engineering Optics
- Photoelectric detection technology and system
- Engineering Optics
- Photoelectric detection technology and system
- Engineering Optics
- Engineering Optics
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2014.7-2019.12
College of Precision Instrument and Optoelectronics Engineering | Tianjin University | Professor, supervisor of Ph.D student  -
2013.4-2014.6
College of Precision Instrument and Optoelectronics Engineering | Tianjin University | Associate Professor, supervisor of Ph.D student  -
2007.8-2008.9
Department of electrical engineering and computer science | University of Kansas | Post-doctor  -
2006.10-2013.3
College of Precision Instrument and Optoelectronics Engineering | Tianjin University | Associate Professor, supervisor of master student  -
2004.8-2006.9
College of Precision Instrument and Optoelectronics Engineering | Tianjin University | Post-doctor 
- Papers
- [1] A Polarized Low-Coherence Interferometry Demodulation Algorithm by Recovering the Absolute Phase of a Selected Monochromatic Frequency
- [2] Wavelength-Division-Multiplexing Method of Polarized Low-coherence Interferometry for Fiber Fabry-Perot Interferometric Sensors
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- [3] Birefringence Dispersion Compensation Demodulation Algorithm for Polarized Low-Coherence Interferometry
- [4] Zero-fringe Demodulation Method Based on Location-dependent Birefringence Dispersion in Polarized Low-coherence Interferometry
- [5] Differential-Pressure-Based Fiber-optic Temperature Sensor Using Fabry-Perot Interferometry
- [6] Birefringence-Dispersion-Induced Frequency Domain Nonlinearity Compensation for Polarized Low-Coherence Interferometry Demodulation
- [7] A High-Efficiency Multiple Events Discrimination Method in Optical Fiber Perimeter Security System
- [8] Simultaneous Measurement of Temperature and Strain Using Spheroidal-Cavity-Overlapped FBG
- [9] Nonperpendicular Incidence Induced Spatial Frequency Drift in Polarized Low-Coherence Interferometry and Its Compensation
- [10] A Simple and Effective Demodulation Method for Polarized Low-Coherence Interferometry
- [11] Batch-Producible Fiber-Optic Fabry-Perot Sensor for Simultaneous Pressure and Temperature Sensing
- [12] Ultraprecise Resonance Wavelength Determination for Optofluidic Sensing Applications
- Patents
- [1] High stable fiber fabry-perot pressure sensor with glue-free packing and its fabrication method
- [2] Measurement of polarization dependent loss in an optical transmission system
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- [3] Swing-style and high signal-to-noise ratio demodulation devices and corresponding demodulation method for the measurement of low coherence interference displacement
- [4] Multi-band multiplexing intra-cavity gas sensing system and method
- [5] Distributed disturbance sensing device and the related demodulation method based on polarization sensitive optical frequency domain reflectometry
- [6] A wide range fiber optic vacuum sensor with multiple steps and its fabrication method
- [7] Portable high-resolution optical fiber CARS microscopic excitation source device and implementation method
- [8] System and method for measuring residual pressure inside micro-cavity of MEMS chip
- [9] Low-coherence interference demodulation method for determining monochromatic frequency interference order based on phase slope
- [10] Demodulating device of multi-channel high-precision fiber grating sensing and demodulating method thereof
- [11] Low coherent interference demodulation method based on chromatic dispersion characteristic and envelopment peak value
- [12] Device and method which are based on birefringence chromatic dispersion and are used for measuring picometer-order displacement
- [13] Optical fiber Fabry-Perot sensor multiplexing method and device based on multi-wavelength and low-coherence light source
- [14] Birefringent crystal temperature compensation based optic fiber pressure sensor and production method thereof
- [15] Demodulating device and method for optical fiber Young interference optical path difference based on low coherent
- [16] Enhanced optical microfluidic sensor device coated with dielectric layer and method
- [17] Gain self-compensating method for linear array CCD (Charge-coupled Device) pixel level signal and compensating circuit
- [18] Low-coherence interference demodulation method based on monochrome frequency absolute phase
- [19] Low-coherence interference demodulation method based on location of center crest of phase gradient
- [20] Resonant light microfluid sensing device and method based on active micropipe
- [21] Quick and high-precision low coherence interference demodulation method based on calibration algorithm and phase shift technology
- [22] Low coherence interference demodulation method based on any extreme value
- [23] Optical fiber Fabry-Perot pressure sensor with fiber bragg grating temperature compensation and making method thereof
- [24] Temperature self-correcting and manufacturing methods for Dual-Fabry-Perot optical fiber pressure sensor
- [25] Imaging optical microfluid sensing device and method thereof
- [26] High-stability optical fiber Fabry-Perot pressure sensor packaged without glue and manufacturing method
- [27] High-precision wide-range low-coherent interference shift demodulation device and demodulation method thereof
- [28] Miniature optical fiber Fabry-Perot pressure sensor and manufacturing method thereof
- [29] Multichannel optical microfluid sensor adopting grating auxiliary coupler array
- [30] Multichannel light microfluid sensor based on wavelength devision multiplex technology and sensing device
- [31] Optical fibre Bragg grating sensing demodulating equipment and demodulating method thereof
- Honors & Awards
- [1] The second class prize of National Technology Invention Awards
- [2] The first class prize of Ministry of Education Science and Technology Progress Awards
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- [3] The first class prize of Chinese Instrument Society Science and Technology Awards
- [4] The first class prize of Tianjin Technology Invention Awards
- [5] The first class prize of Tianjin Technology Invention Awards
- [6] The thirteenth Tianjin Youth Science and Technology Award
- [7] Tianjin outstanding scientific and technological workers honorary title
- [8] Chinese Patent Excellence Award
- [9] Chinese Patent Excellence Award
- [10] Tianjin patent gold Award
- [11] Tianjin Patent Excellence Award
- [12] The second class prize of Tianjin Natural Science Awards