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江毅
教授
江毅(1967年9月—),四川人,光電學專家,北京理工大學教授,博士生導師,主要研究方向為光纖感測器。
教授,博導,研究方向為光纖感測器。2007年入選教育部新世紀優秀人才。長期從事光纖感測器和光纖測量儀器的研究,研究內容包括:光纖白光干涉測量術,光纖激光干涉測量術,高精細度的光纖法珀干涉儀(可調諧濾波器和感測器),EFPI感測器,光纖光柵感測器及解調儀,微納光纖感測器,光纖高溫感測器,MEMS光纖感測器,摻鉺光纖光源等。先後承擔十餘項國家級科研項目在內的數十項科研項目。發表論文100餘篇,其中SCI論文70餘篇,授權發明專利13項,出版專著2部,獲教育部自然科學一等獎和教育部發明一等獎各一次。指導的博士生獲首屆中國光學學會優秀博士論文。
江毅教授
1990年考入重慶大學光電精密儀器系,精密儀器及機械專業,師從中國工程院院士黃尚廉教授。
1993年畢業獲碩士學位,同年考取該專業博士生,繼續師從黃先生。
1996年博士畢業後到北京理工大學光電工程系431教研室工作。
2001-2002年在香港科技大學做訪問學者,並獲得博士后證書。
2004年5月和2004年7-9月,2次赴香港科技大學進行學術訪問和實驗研究。
2014.12-2015.1,美國西北大學高級訪問學者
最近10年研究重點主要集中在光纖光譜域白光干涉測量技術、光纖激光干涉測量、光纖法珀干涉儀、光纖高溫感測器領域。
(1)光纖白光干涉測量術的研究。
在光譜域光纖白光干涉測量這一領域做出了傑出的研究工作,最先提出基於相位測量技術的光譜域白光干涉測量技術,研究成果包括:(1) 提出了一種適合用於儀器化的等時間間隔、等波長間隔的光譜獲取技術,為形成光譜域白光干涉測量儀打下了技術基礎;(2) 提出了傅立葉變換白光干涉術。 (3) 提出分數階傅里葉變換白光干涉測量術,解決了微距離白光干涉測量技術的問題。(4) 提出了一種應用33耦合器的光纖白光干涉高速測量法;(5)應用白光干涉測量術實現了強度/相位/波長三種不同感測器的同時混合測量。
研製出多通道光纖白光干涉測量儀,在測量範圍大於100m的同時,實現測量解析度達到1nm,測量速度30Hz。測量腔長範圍從60m到10000m(解析度在不同範圍內、不同感測器質量不同,最高0.2nm)。
(2)光纖激光干涉測量技術
激光干涉測量技術是一種相對測量技術,適合測量振動和聲這一類動態信號。最早在國內提出基於3*3耦合器的激光干涉測量技術,使這一技術實現了工程化應用。完善和發展了雙波長正交解調技術,形成專利技術並實現轉讓,實現了大動態範圍、高靈敏度、寬頻率範圍、對初始光程差不敏感的技術路徑。
研製出多種激光干涉測量儀,分別適合用於全光纖M-Z干涉儀,光纖FP干涉儀,光纖Michelson干涉儀的信號解調,形成光纖聲測量儀、振動測量儀、電磁場測量儀等。
(3)光纖法珀干涉儀的研究
光纖可調諧法珀濾波器是光譜域光纖白光干涉測量術中的核心器件,同時也是光纖光柵感測器信號解調儀的核心器件,被譽為光纖感測中的CPU。從2003年開始研究這一器件,技術上解決了光纖端面空心波導的加工問題,使我們可以在光纖端面加工幾個微米尺寸的空心波導,將光纖中出纖光的模場直徑限制在不到10個微米的空間範圍,能夠形成高精細度的F-P干涉儀,並解決了自由空間中光纖端面的精確對準問題。
在應用層面:(1)研製出了可調諧光纖F-P濾波器,目前的精細度超過1000,自由光譜區範圍超過100nm,目前已經量產,得到了廣泛應用;(2)研製出高精細度光纖FP標準具,在波長間隔0.8nm或0.4nm的波長上,透射光譜線寬僅幾個pm,能夠精確的實現波長校正;(3)以之為基礎,開發出了波長掃描範圍超過80nm的可調諧激光器,以及掃描範圍0.8nm的窄線寬激光器;(4)首次提出並實現雙腔法珀濾波器;(5)應用這一技術研製出高精細度的光纖溫度、壓力、磁場等感測器。
還先後為美國XX公司研製出多模光纖可調諧法珀濾波器,為XX大學研製出小FSR(長腔長)的可調諧法珀濾波器,為XX大學研製出相移光纖光柵可調諧濾波器。
(4)微納光纖高溫感測器
在光纖端面應用微納加工技術,研製出高溫光纖溫度、壓力、振動、應變感測器,主要實現的技術指標是:光纖高溫溫度感測器的測量溫度達到1200°C。以及研製出高溫光纖壓力、應變、振動感測器,為多個國防項目提供了可靠的技術支持。
(6)工程應用
除了在光纖感測器的原理、技術、工藝等方面開展研究外,還積極推動光纖感測技術的工程應用。
SCI論文統計
SCI論文統計
Jingshan Jia , Yi Jiang, Liuchao Zhang , Hongchun Gao , and Lan Jiang. Fiber Optic Dual-Ring Michelson Interferometer Based Detection Scheme for the Measurement of Dynamic Signals [J]. Journal of Lightwave Technology, 37(15): 3750-3755, Aug. 2019
Hongchun Gao, Yi Jiang, Liuchao Zhang, Yang Cui, Yuan Jiang, Jingshan Jia, and Lan Jiang,Antiresonant mechanism based self-temperature-calibrated fiber optic Fabry–Perot gas pressure sensors,Opt. Express,27(16), 22181-22189,2019
Jingshan Jia, Yi Jiang, Liuchao Zhang, Hongchun Gao, and Lan Jiang,“Symbiosis-Michelson interferometer based detection scheme for the measure¬ment of dynamic signals,” IEEE Sensors Journal, vol. 19, no. 18, pp. 7988-7992, Sep. 2019
Jingshan Jia, Yi Jiang,Gao Hongchun, Three-Wavelength Passive Demodulation Technique for Fiber EFPI Sensors,Optics Express, vol.27, No.16, 2019
Weiyi Ma , Yi Jiang and Hongchun Gao,Miniature all-fiber extrinsic Fabry–Pérot interferometric sensor for high-pressure sensing under high-temperature conditions,Meas. Sci. Technol. 30 025104 ,2019
Liuchao Zhang, Yi Jiang, Hongchun Gao, Jingshan Jia, Yang Cui, Sumei Wang, and Jie Hu. "Simultaneous Measurements of Temperature and Pressure With a Dual-Cavity Fabry–Perot Sensor." IEEE Photonics Technology Letters 31.1: 106-109,2019.
Liuchao Zhang, Yi Jiang, Hongchun Gao, Jingshan Jia, Yang Cui, Weiyi Ma, Sumei Wang, and Jie Hu. "A diaphragm-free fiber Fabry-Perot gas pressure sensor." Review of Scientific Instruments ,90,2025005, 2019
Hongchun Gao, Yi Jiang, Yang Cui, Liuchao Zhang, Jingshan Jia, and Lan Jiang. Investigation on the thermo-optic coefficient of silica fiber within a wide temperature range, Journal of Lightwave Technology, 36(24),5881-5886, 2018.
Hongchun Gao, Yi Jiang, Yang Cui, Liuchao Zhang, Jingshan Jia, and Jie Hu. Dual-cavity Fabry-Perot interferometric sensors for the simultaneous measurement of high temperature and high pressure, IEEE Sensors Journal, 18(24),10028-10033,2018..
Gao, HC; Jiang, Y; Zhang, LC; Jiang, L; "Five-step phase-shifting white-light interferometry for the measurement of fiber optic extrinsic Fabry-Perot interferometers ", Applied Optics , 57(5), 1168-1173 (2018)
Zhang Liuchao,Yi Jiang, Jingshan Jia,Peng Wang, Sumei Wang, Lan Jiang,Fibre optic micro vibration sensors fabricated by a femtosecond laser,Optics and Lasers in Engineering,110: 207-210, 2018
Liuchao Zhang, Yi Jiang, Jingshan Jia, Hongchun Gao, and Sumei Wang. Micro all-glass fiber-optic accelerometers. Optical Engineering, 57(8): 087107, 2018.
Jingshan Jia, Yi Jiang, Liuchao Zhang, Hongchun Gao,etc. Dual-wavelength DC compensation technique for the demodulation of EFPI fiber sensors, IEEE PHOTONICS TECHNOLOGY LETTERS, 1380–1383, AUGUST 1, 2018
Chen, FF; Y, Jiang; Zhang, LC; Jiang, L; "Wang, SM, Fiber optic refractive index and magnetic field sensors based on microhole-induced inline Mach-Zehnder interferometers", Measurement Science And Technology, 29(4), 045103 (2018).
Dong. NN, Wang.SM, Jiang.L; Y. Jiang, Wang; P, Zhang; LC, "Pressure and Temperature Sensor Based on Graphene Diaphragm and Fiber Bragg Gratings", IEEE Photonics Technology Letters, 30(5), 431-434 (2018).
Gao, R; Lu, DF; Cheng, J; Jiang, Y; Qi, ZM; "Temperature-compensated fibre optic magnetic field sensor based on a self-referenced anti-resonant reflecting optical waveguide ", Applied Physics Letters, 110(13), 131903 (2017).
Gao, R; Lu, DF; Cheng, J; Jiang, Y; Jiang, L; Xu, JD; Qi, ZM; "Fiber optofluidic biosensor for the label-free detection of DNA hybridization and methylation based on an in-line tunable mode coupler", Biosensors & Bioelectronics, 86, 321-329 (2016).
Mao, YF; Hao, XL; Yuan, JH; Jiang, Y; Zhang, HL; " Near-diffraction-limited 156 W laser-diode end-pumped Yb:YAG Innoslab laser operated at room temperature ", Applied Physics B-Lasers And Optics , 122(11), 279 (2016).
Gao, R; Lu, DF; Cheng, J; Jiang, Y; Jiang, L; Sen Ye, J; Qi, ZM; "Magnetic Fluid-Infiltrated Anti-Resonant Reflecting Optical Waveguide for Magnetic Field Sensing Based on Leaky Modes", Journal Of Lightwave Technology, 34(15), 3490-3495 (2016).
Mao, YF; Zhang, HL; Hao, XL; Yuan, JH; Xing, JC; Xin, JG; Jiang, Y ;"8.4mJ, 10kHz, 3.6ns, Nd:YVO4 slab amplifier", Optics Express, 24(10) (2016).
Gao, R ; Lu, DF; Cheng, J; Jiang, Y; Jiang, L; Qi, ZM; "Humidity sensor based on power leakage at resonance wavelengths of a hollow core fiber coated with reduced graphene oxide", Sensors And Actuators B-Chemical, 222, 618-624 (2016).
Lv, LY; Wang, SM; Jiang, L; Zhang, F; Cao, ZT; Wang, P; Jiang, Y; Lu, YF ; "Simultaneous measurement of strain and temperature by two peanut tapers with embedded fiber Bragg grating", Applied Optics, 54(36), 10678-10683 (2015).
Zhang, X; Zhang, HL; Mao, YF; Sang, SH; Zou, JY; Xing, JC; Xin, JG; Jiang, Y; " 77W high beam quality Nd:YVO4 Innoslab amplifier", Laser Physics, 25(12), 125803 (2015).
Sang, SH; Zhang, HL; Mao, YF; Zhang, X; Zou, JY; Xin, JG; Xing, JC; Jiang, Y; " Compact, high-average-power, nanosecond multi-pass Nd:YVO4 Innoslab amplifier", Applied Physics B-Lasers And Optics, 121(2), 131-134 (2015).
Mao, YF; Zhang, HL; Sang, SH; Zhang, X; Yu, XL; Xing, JC; Xin, JG; Jiang, Y; " High-Power Continuous-Wave Nd:GdVO4 Solid-State Laser Dual-End-Pumped at 880nm", Chinese Physics Letters, 32 (9), 094201 (2015).
Chen, FF; Jiang, Y; Gao, HC; Jiang, L; " A high-finesse fiber optic Fabry-Perot interferometer based magnetic-field sensor", Optics And Lasers In Engineering, 71, 62-65 (2015).
Ding, WH; Jiang, Y; Gao, R ; Liu, YW; "High-temperature fiber-optic Fabry-Perot interferometric sensors", Review Of Scientific Instruments, 86(5), 055001 (2015).
Chen, FF; Jiang, Y; Jiang, L; " 3 x 3 coupler based interferometric magnetic field sensor using a TbDyFe rod", Applied Optics, 54(8), 2085-2090 (2015).
Gao, R ; Jiang, Y; Li, G ; "A Sandwich Structure for the Magnetic Field Detection With Supermodes Interference", IEEE Photonics Technology Letters, 27(5), 455-458 (2015).
Mao, YF; Zhang, HL; Xu, L; Deng, B; Sang, SH; He, JL; Xing, JC; Xin, JG; Jiang, Y; " Laser diode double-end-direct-pumped slab laser with hybrid resonator", Acta Physica Sinica, 64(1), 014203 (2015).
Wang, Z; Jiang, Y; Ding, WH ; Gao, R "A White-Light Interferometry for the Measurement of High-Finesse Fiber Optic EFPI Sensors", IEEE Photonics Technology Letters, 26(21), 2138-2141 (2014).
Ding, WH; Jiang, Y; Gao, R ; Wang, Z; Liu, YW; "An in-line photonic crystal fibre-based Mach-Zehnder interferometer with temperature compensation", Measurement Science And Technology, 25(10), 107002 (2014).
Chen, FF; Jiang, Y; "Fiber optic magnetic field sensor based on the TbDyFe rod", Measurement Science And Technology, 25(8), 085106 (2014).
Mao, YF; Zhang, HL; Xu, L; Deng, B; Xing, JC; Xin, JG; Jiang, Y; "An 880-nm Laser-Diode End-Pumped Nd:YVO4 Slab Laser with a Hybrid Resonator", Chinese Physics Letters, 31(7), 074206 (2014).
Gao, R; Jiang, Y; Ding, WH; "Agarose gel filled temperature-insensitive photonic crystal fibers humidity sensor based on the tunable coupling ratio", Sensors And Actuators B-Chemical, 195, 313-319 (2014).
Ran. Gao, Y. Jiang, and Yang Zhao, Magnetic field sensor based on anti-resonant reflecting guidance in the magnetic gel coated hollow core fiber, [J] OPTICS LETTERS, 39(22): 1-4. ,2014
Saad, A; Jiang, Y; Liu, YW; Wang, Z; "The measurement of the diameter change of a piezoelectric transducer cylinder with the white-light interferometry", Optics And Lasers In Engineering, 56 , 169-172 ,2014.
Ran. Gao, Y. Jiang, and L. Jiang, Multi-phase-shifted helical long period fiber grating based temperature-insensitive optical twist sensor [J], OPTICS EXPRESS, 22(13): 15697-15701,2014
Ding, WH; Jiang, Y; "Miniature Photonic Crystal Fiber Sensor for High-Temperature Measurement", IEEE Sensors Journal, 14(3), 786-789 (2014).
Wang, Z; Jiang, Y; Ding, WH; Gao, R; "Fourier transform white-light interferometry based on nonlinear wavelength sampling", Optical Engineering, 52(10), 104102 (2013).
Ran. Gao, Y. Jiang, and S. Abdelaziz,All-fiber magnetic field sensors based on magnetic fluid-filled photonic crystal fibers [J], OPTICS LETTERS, 38(9): 538-561,2013
Ran. Gao and Y. Jiang, A magnetic fluid - filled microhole in the collapsed region of the photonic crystal fiber for the measurement of magnetic field [J], OPTICS LETTERS, 38(16): 3181-3185 ,2013
Gao, R ; Jiang, Y; Ding, WH; Wang, Z; Liu, D; " Filmed extrinsic Fabry-Perot interferometric sensors for the measurement of arbitrary refractive index of liquid", Sensors And Actuators B-Chemical, 177 , 924-928 (2013).
Wang, Z; Jiang, Y; Peng, H; Ma, XM; Cui, LZ; "A temperature-compensated fibre optic extrinsic Fabry-Perot interferometric displacement sensor for fault measurement in geomechanics", Measurement Science And Technology, 24(4), 025104 (2013).
Gao, R ; Jiang, Y; Ding, WH; Wang, Z; "Novel Method for the Measurement of Chromatic Dispersion of Photonic Crystal Fibers", IEEE Photonics Technology Letters, 25(5), 129-132 (2013).
Wang, Z; Jiang, Y; "Wavenumber scanning-based Fourier transform white-light interferometry", Applied Optics, 51(22), 5512-5516 (2012).
Ding, WH; Jiang, Y; "All-solid photonic band gap fiber based distributed fiber optic pressure sensor", Optics Express, 20(13), 14054-14063 (2012).
Xu, Y; Li, YQ; Jiang, Y ; Leung, CKY; "Application of 3 x 3 coupler based Mach-Zehnder interferometer in delamination patch detection in composite", NDT & E International, 44(5), 469-476 (2011).
Jiang, Y; Tang, CJ; Wang, CW; "Double-Cavity Fiber Fabry-Perot Tunable Filter", Microwave And Optical Technology Letters, 53(2), 242-245 (2011).
Jiang, Y; Ding, WH; Liang, PJ; Fu, L; Wang, CW; "Phase-Shifted White-Light Interferometry for the Absolute Measurement of Fiber Optic Mach-Zehnder Interferometers", Journal Of Lightwave Technology, 28(22), 3294-3299 (2010).
Jiang, Y; Liang, PJ; Jiang, TF; "Direct measurement of optical phase difference in a 3 x 3 fiber coupler", Optical Fiber Technology, 16(3), 135-139 (2010).
Jiang, Y; Tang, CJ; Xu, JJ; "Fabrication of long-period gratings with a mercury-arc lamp", Optics Communications, 283(7), 1311-1315 (2010).
Jiang, Y; Tang, CJ; Guo, GR; "Note: Phase compensation in the fiber optical quadrature passive demodulation scheme", Review Of Scientific Instruments, 81(4), 046108 (2010).
Tang, CJ; Jiang, Y; "Microlens optical fiber Fabry-Perot tunable filter", Optical Engineering, 48(11), 114401 (2009).
Jiang, Y; Tang, CJ; "Passive interrogation of an extrinsic Fabry-Perot interferometer using a three-wavelength method", Optical Engineering, 48(6), 064401( 2009).
Jiang, Y; Leung, CKY; Ng, M; Motavalli, M; Feltrin, G; Gsell, D; "Delamination detection in an I-section glass fiber reinforced plastic beam with an optical fiber-based stress wave method", ACS Appl Mater Interfaces, 18(6), 065003 (2009).
Jiang, Y; Tang, CJ; "A simultaneous interrogation system for intensity-type sensor/fiber Bragg grating/extrinsic Fabry-Perot interferometer", Measurement Science And Technology, 20(2), 025308 (2009).
Jiang, Y; Tang, CJ; "Effect Of Nonlinear Wavelength Scanning To Fourier Transform White-Light Interferometry", Microwave And Optical Technology Letters, 51 (2), 426-432 (2009).
Jiang, Y; Tang, CJ; Zhang, FJ; "Wdm/Sdm Of Intensity-Type Fiber-Optic Sensors", Microwave And Optical Technology Letters, 51(2), 432-435 (2009).
Jiang, Y; "Fourier-Transform Phase Comparator For The Measurement Of Extrinsic Fabry-Perot Interferometric Sensors", Microwave And Optical Technology Letters, 50(10), 2621-2625 (2008).
Jiang, Y; Tang, CJ; " Fourier transform white-light interferometry based spatial frequency-division multiplexing of extrinsic Fabry-Perot interferometric sensors", Review Of Scientific Instruments, 79(10), 106105( 2008).
Jiang, Y; Tang, CJ; "High-finesse micro-lens fiber-optic extrinsic Fabry-Perot interferometric sensors", Smart Materials & Structures, 17(5), 055013 (2008).
Jiang, Y; Tang, CJ;" High-finesse microlens optical fiber fabry-perot filters", Microwave And Optical Technology Letters, 50(9), 2386-2389 (2008).
Jiang, Y; "Four-element fiber Bragg grating acceleration sensor array", Optics And Lasers In Engineering, 49(9), 695-703 (2008).
Jiang, Y; "Wavelength-scanning white-light interferometry with a 3 X 3 coupler-based interferometer", Optics Letters, 33(16), 1869-1871 (2008).
Jiang, Y; Tang, CJ; "An optical fiber methane sensing system employing a two-step reference measuring method", Sensors And Actuators B-Chemical, 133(1), 174-179 (2008).
Jiang, Y; Tang, CJ; "A high-resolution technique for strain measurement using an extrinsic Fabry-Perot interferometer (EFPI) and a compensating EFPI", Measurement Science And Technology, 19(6), 065304 (2008).
Jiang, Y; Xu, Y; Leung, CKY (Leung, Christopher K. Y.)[ 3 ]; "3*3 coupler-based Mach-Zehnder interferometer and its application in the delamination detection in FRP composite", Journal Of Intelligent Material Systems And Structures, 19(4), 497-507 (2008).
Jiang, Y; "High-resolution interrogation technique for fiber optic extrinsic Fabry-Perot interferometric sensors by the peak-to-peak method", Applied Optics, 47(7), 925-932 (2008).
Jiang, Y; "Fourier transform white-light interferometry for the measurement of fiber-optic extrinsic Fabry-Perot interferometric sensors", IEEE Photonics Technology Letters, 20(1-4), 75-77 (2008).
Jiang, Y; "Stabilized 3X3-coupler-based interferometer for the demodulation of fiber Bragg grating sensors", Optical Engineering, 47(1), 015006 (2008).
Jiang, Y; "Wavelength division multiplexing addressed four-element fiber optical laser hydrophone array", Applied Optics, 46(15), 2939-2948 (2008).
