Research

School

School of Information Engineering

Supervisor Level

Master's Supervisor, Doctoral Supervivor

Professional Title

Professor

Research Interests

Information and Communication Engineering, Optical Engineering, Optical Fiber Technology and System

Home Page

http://yzw.gdut.edu.cn/info/1088/1337.htm

Contacts

yangj@gdut.edu.cn

Admission Schools of Master and Doctor

Admission School of Doctor: School of Information and Engineering

Admission Schools of Master: School of Information and Engineering,School of Physics and Optoelectronic Engineering

Personal Introduction

He is nominated as Talent in the New Century by Ministry of Education. He serves as Committee Member of The Chinese Optical Society, the Chinese Optical Society and Chinese Society for Optical Engineering.He is mainly engaged in the research of optical fiber sensing technology and systems, optical testing methods and optical fiber measuring instruments, and has presided over more than 10 national projects. He has published more than 250 papers, 134 of which are included by SCI and 106 invention patents were authorized. He is also the co-author of 2 books.In addition, he has won 3 many significant awards in science and technology.

Education

Sept.1995 -July1999, Bachelor Degree,Optoelectronic Technology,Harbin Institute of Technology,

Sept.1999 - Mar. 2002, Master's Degree.,Optical Engineering,Harbin Institute of Technology,

Sept.2001 - Jun.2005, Doctoral Degree.,Mechanical Design and Theory, Harbin Institute of Technology,

Experience

Nov. 2000-Dec. 2002, Assistant professor, School of Science, Harbin Engineering University;

January 2003-January 2004, Visiting Scholar, Department of Mechanical Engineering, Hong Kong Polytechnic University;

February 2004 - August 2005, lecturer, School of Science, Harbin Engineering University;

September 2005-August 2007, Associate Professor, School of Science, Harbin Engineering University;

September 2007 -August 2009, Professor, School of Science, Harbin Engineering University;

September 2009-January 2019, Professor/PhD Supervisor, School of Science, Harbin Engineering University;

September 2011-January 2019, Executive Deputy Director of the Key Laboratory of Fiber Integrated Optics, Ministry of Education;

September 2015-January 2019, Dean, School of Science, Harbin Engineering University;

February 2019- present, Professor, School of Information Engineering, Guangdong University of Technology.

Part-time Academic Job

Opto-electronics Professional Committee Member of The Chinese Optical Society; Fiber Optics and Integrated Optics Expert Committee Member of The Chinese Optical Society; Member of Optical Fiber Sensors Expert Committe of Chinese Society for Optical Engineering; Executive Director of Opto-Electronic-Mechanic Technology and System Integration Chapter of China Instrument and Control Society.

Main Honors

Nov.2018, The First prize of Heilongjiang Provincial Science and Technology Award in Technology Invention category, Detection and Diagnosis of High-Precision Fiber Optic Gyroscope Core Devices (Ranked 2nd);

Jul.2008, The First prize of Heilongjiang Provincial Science and Technology Award in Technology Invention category, Theory and Method of Multiple Nesting of Optical Interferometer (Ranked 2nd);

Aug. 2014: The First prize of Heilongjiang Science and Technology Award in Science and Technology Progress category, Introduction of New Generation of High-Precision Gyroscopes and Systems (Rranked 8th);

Dec.2016, The Second prize for Technological Inventions, Ministry of Education, Measurement Technology and Application the Offshore Platform Optical Fiber Precision Motion (Ranked 3rd);

May.2016, The Second prize of Innovation Technology Award by Chinese Society for Optical Engineering, High-Precision Testing Technology of Fiber Optic Gyro Core Devices (Ranked 2nd);

Dec.2017, The First prize of Heilongjiang University Science and Technology Award (the recommended provincial first prize), Detection and Diagnosis of High-Precision Fiber Optic Gyroscope Core Devices (Ranked 2nd);

Oct.2007, Tbe Second prize of Heilongjiang Provincial Excellent Teaching Achievement Award, Exploration and Practice of the Teaching Reform of Research-Oriented Specialized Basic Course (Ranked 2nd);

May.2006, The third Excellent Master thesis of Heilongjiang Province, Low Coherence Fiber Strain Test System and Its Application in Bridge Detection;

May.2015, The 12th Heilongjiang Provincial Science and Technology Award for the Youth.

Main Achievements

(1) Libo Yuan, Jun Yang, Principle and Application of Fiber Optic White-Light Interference, Beijing: Science Press, 2016

(2) Libo Yuan, Jun Yang, Optical Fiber White-Light Interference Sensing Technology, Beijing: Beihang University Press, 2011

(3) Libo Yuan, Jun Yang, Chapter 9, Optical Fiber White-Light Interference Sensing Technology and Application, Optical Fiber Sensing Technology: New Progress, Wei Jin, Shuangchen Ruan, Beijing: Science Press, 2005

(4) Libo Yuan, Optical Fiber Experimental Technology, Harbin: Harbin Engineering University Press, 2004

（5）J. Yang; Z. Yang; H. Zhang; Z. Yu; Y. Yuan; H. Li; X. Zhang; F. Jiang; L. Yuan, “A Calibration Method for Large Dynamic Range White Light Interferometry Using High-Order Polarization Crosstalk,” JOURNAL OF LIGHTWAVE TECHNOLOGY, vol.36, no. 14, pp. 2834-2843 (2018)

（6）Z. Gao; X. Lu; Y. Zhang; S. Guo; Y. Liu; S. Sun; F. He; P. Yang; J. Ren;J. Yang*, “Transmission electron microscopic and optical spectroscopic studies of Ni2+/Yb3+/Er3+/Tm3+ doped dual-phase glass-ceramics,” JOURNAL OF THE AMERICAN CERAMIC SOCIETY, vol. 101, no. 7, pp. 2868-2876 (2018)

（7）Q. Liu; B. Zhang; Q. Chai; Y. Tian; Y. Liu; J. Ren; C. Liu; J. Zhang; E. Lewis; W. Zhang; S. Wang; Z. Liu;J. Yang*; L. Yuan, “Discriminating Twisting Direction by Polarization Maintaining Fiber Bragg Grating,” IEEE PHOTONICS TECHNOLOGY LETTERS, vol. 30, no. 7, pp. 654-657 (2018)

（8）Z. Gao; X. Lu; Y. Chu; S. Guo; L. Liu; Y. Liu; S. Sun; J. Ren;J. Yang*, “The distribution of rare earth ions in a gamma-Ga2O3 nanocrystal-silicate glass composite and its influence on the photoluminescence properties,” JOURNAL OF MATERIALS CHEMISTRY C, vol. 6, no. 12, pp. 2944-2950 (2018)

（9）H. Zhang;J. Yang*; Z. Yu; Z. Yang; C. Hou; Y. Yuan; Z. Liu; Y. Zhang; L. Yuan, “High-Accuracy PER Measurement of Integrated Optic Chip Using Orthogonal Alignment Method,” IEEE PHOTONICS TECHNOLOGY LETTERS, vol. 30, no. 8, pp. 732-735 (2018)

（10）H. Yu; H. Li; Y. Wang; L. Cu; S. Liu;J. Yang*, “Brief review on pulse laser propulsion,” OPTICS AND LASER TECHNOLOGY, vol. 100, pp. 57-74 (2018)

（11）Y. Tian; Q. Chai; T. Tan; B. Mu; Q. Liu; Y. Liu; J. Ren; J. Zhang; K. Oh; E. Lewis;J. Yang*; Z. Liu, “Directional Bending Sensor Based on a Dual Side-Hole Fiber Mach-Zehnder Interferometer,” vpl. 30, no. 4, pp. 375-378 (2018)

（12）Y. Tian; Q. Cha; Y. Meng; Y. Liu; J. Ren; S. Wang; J. Zhang; W. Zhang; E. Lewi;J. Yang*, “An Overlap-Splicing-Based Cavity in FBG Sensor for the Measurement of Strain and Temperature,” IEEE PHOTONICS TECHNOLOGY LETTERS, vol. 29, no. 2, pp. 235-238 (2017)

（13）Z. Yu;J. Yang*; Y. Yuan; F. Peng; H. Li; C. Hou; C. Hou; Z. Liu; L. Yuan, "High-Resolution Distributed Dispersion Characterization for Polarization Maintaining Fibers Based on a Closed-Loop Measurement Framework," IEEE Photonics Journal, vol.9, no.3, pp.1-8 (2017)

（14）S. Liu, Y. Ji, L. Cui, W. Sun,J. Yang*, and H. Li, “Humidity-insensitive temperature sensor based on a quartz capillary anti-resonant reflection optical waveguide,” Optics Express, vol. 25, no. 16, pp. 18929-18939 (2017)

（15）C. B. Hou, J. G. Wang,J. Yang*, H. Y. Li, Y. G. Yuan, F. Peng, and L. B. Yuan, “Improved path imbalance measurement of a fiber-optic interferometer based on frequency scanning interferometry,” Measurement Science and Technology, vol. 28, no. 8 (2017)

（16）H. Zhang,J. Yang*, C. Li, Z. Yu, Z. Yang, Y. Yuan, F. Peng, H. Li, C. Hou, J. Zhang, L. Yuan, J. Xu, C. Zhang, and Q. Yu, “Measurement error analysis for polarization extinction ratio of multifunctional integrated optic chips,” Applied Optics, vol. 56, no. 24, pp. 6873-6880 (2017)

（17）H. Yu; H. Li; L. Cui; S. Liu;J. Yang*, “Micro-gun based on laser pulse propulsion,” SCIENTIFIC REPORTS, vol. 7, 16299 (2017)

（18）Y. Yuan; D. Lu;J. Yang*; J. Wang; H. Li; Z. Yu; H. Zhang; F. Peng; Z. Liu; L. Yuan, “Range extension of the optical delay line in white light interferometry,” Applied Optics, vol. 56, no. 16, pp. 4598-4605 (2017)

（19）F. Peng; Y. Lv; H. Li; S. Tian; W. Chen;J. Yang*, “Sensitivity Prediction of Multiturn Fiber Coil-Based Fiber-Optic Flexural Disk Seismometer via Finite Element Method undefinedysis,” Journal of Lightwave Technology, vol. 35, no. 18, pp. 3870-3876 (2017)

（20）Y. Yuan; Y. Cheng;J. Yang*; H. Zhang; D. Lu; Y. Lv; F. Peng; H. Li; X. Zhang; F. Jiang, “Suppression of interference noise caused by Fresnel reflection in all-fiber white-light interferometer” APPLIED OPTICS, vol. 56, no. 31, pp. 8732-8737 (2017)

F. Peng,; C. Li;J. Yang*; C. Hou; H. Zhang; Z. Yu; Y. Yuan; H. Li; L. Yuan, “Symmetry evaluation for an interferometric fiber optic gyro coil utilizing a bidirectional distributed polarization measurement system,” Applied Optics, vol. 56, no. 20, pp. 5614-5619 (2017)

Yan Wang; Hanyang Li; Liyuan Zhao; Yongjun Liu; Shuangqiang Liu;Jun Yang*, "Tapered optical fiber waveguide coupling to whispering gallery modes of liquid crystal microdroplet for thermal sensing application," Opt. Express25, 918-926 (2017)

H. Y. Li; Y. Wang; H. Li; Y. D. Zhang;J. Yang*, “Dispersing upconversion nanocrystals in a single silicon microtube,” Scientific Reports, vol. 6, pp. 8 (2016)

C. Li;J. Yang*; Z. J. Yu; Y. G. Yuan; B. Wu; F. Peng; J. Z. Zhang; A. Zhou; Y. Zhang; Z. H. Liu;d L. B. Yuan, “Dynamic range beyond 100 dB for polarization mode coupling measurement based on white light interferometer,” Optics Express, vol. 24, no. 15, pp. 16247-16257 (2016)

C. Li;J. Yang*; Z. J. Yu; Y. G. Yuan; J. Z. Zhang; B. Wu; F. Peng; L. B. Yuan, “High-Order Interference Effect Introduced by Polarization Mode Coupling in Polarization-Maintaining Fiber and Its Identification,” Sensors, vol. 16, no. 3, pp. 11 (2016)

C. Li; Y. G. Yuan;J. Yang*; Z. J. Yu; F. Peng; B. Wu; Y. Zhang; L. B. Yuan; Y. Hua; P. Shu, “Inconsistency measurement between two branches of LiNbO3 integrated optic Y-junction,” Optics Communications, vol. 369, pp. 152-158 (2016)

Y. Zhao; B. Sun; Y. Liu; J. Ren; J. Zhang;J. Yang*; J. Canning; G. Peng; L. Yuan, “Polarization mode coupling and related effects in fiber Bragg grating inscribed in polarization maintaining fiber”. Optics express,vol. 24, no. 1, pp. 611-619 (2016)

Z. J. Yu;J. Yang*; Y. G. Yuan; C. Li; S. Liang; L. Hou; F. Peng; B. Wu; J. Z. Zhang; Z. H. Liu; L. B. Yuan, “Quasi-distributed birefringence dispersion measurement for polarization maintain device with high accuracy based on white light interferometry,” Optics Express, vol. 24, no. 2, pp. 1587-1597 (2016)

Y. Wang; H. Y. Li; L. Y. Zhao; Y. J. Liu; S. Q. Liu;J. Yang*, “Tunable whispering gallery modes lasing in dye-doped cholesteric liquid crystal microdroplets,” Applied Physics Letters, vol. 109, no. 23, pp. 5 (2016)

H. Y. Li; Y. Wang; J. Li; S. Q. Liu;J. Yang*, “Waveguiding performance of rhodamine 6G doped polymer nanowire,” Optik, vol. 127, no. 18, pp. 7268-7273 (2016)

C. Li;J. Yang*; Y. Yuan; A. Zhou; D. Yan; J. Chai; S. Liang; L. Hou; B. Wu; Peng, F (Peng, F.), “A differential delay line for optical coherence domain polarimetry,” OPTICS COMMUNICATIONS, vol. 26, no. 4,045102 (2015)

Y. Yuan; C. Li;J. Yang*; A. Zhou; S. Liang; Z. Yu; B. Wu; F. Peng; Y. Zhang; Z. Liu, “Simultaneous evaluation of two branches of a multifunctional integrated optic chip with an ultra-simple dual-channel configuration,” PHOTONICS RESEARCH, vol. 3, no. 4, pp. 115-118 (2015)

1.Jun Yang, Jun Chai, Yonggui Yuan, Feng Peng, Bing Wu, Libo Yuan, A Large-Range Optical Delay Device, Authorization Number: ZL 201310739371.7, Application Date: 2013.12.30, Authorization Date: 20171003

2.Jun Yang, Yonggui Yuan, Jun Chai, Feng Peng, Bing Wu, Libo Yuan, Optical Performance Measurement Method of A Multifunctional Lithium Niobate Integrated Device, Authorization Number: ZL 201310739315.3, Application Date: 2013.12.30; Authorization Date: 20160914

3.Jun Yang, Mingzhe Dai, Jun Chai, Chuang Li, Dekai Yan, Bing Wu, Feng Peng, Yonggui Yuan, Yuan Libo, A Y-Waveguide Dual-Channel Measurement Device of Optical Performance, Authorization Number: ZL 201410535211.5;

4.Jun Yang, Mingzhe Dai, Chuang Li, Dekai Yan, Bing Wu, Feng Peng, Yonggui Yuan, Yuan Libo, A Y-Waveguide Dual-Channel Optical Performance Bidirectional Multi-Axis Angle Automatic Test Device, Patent Number: ZL 201410535191.1; Authorization Date : 20170215

5.Jun Yang, Jun Chai, Mingzhe Dai, Chuang Li, Dekai Yan, Bing Wu, Feng Peng, Yonggui Yuan, Yuan Libo, A Dual-Channel Optical Performance Simultaneous Testing Device for Y-Waveguide Device and Its Recognition and Processing Method for Y-Waveguide Polarization Crosstalk, Patent Number: ZL 201410535202.6, Authorization Date: 20170524

6.Feng Peng, Lu Hou, Jun Yang, Bing Wu, Yuan Libo, An Improved PGC Demodulation Method for Generating Carrier Phase, Invention Patent, Authorization Number: CN201510293443.9, Application Date: 20150505; Authorization Date: 20171128

7.Jun Yang, Lu Hou, Feng Peng, Yonggui Yuan, Bing Wu, Yuan Libo, An Improved PGC Demodulation Method for Generating Carrier Phase, Authorization Number: CN201510293444.3, Application Date: 20150602; Authorization Date: 20171121

8.Jun Yang, Shuai Liang, Chuang Li, Yonggui Yuan, Bing Wu, Feng Peng, Yuan Libo, A Noise Suppression Device and Suppression Method for Distributed Polarization Crosstalk Measurement of Optical Polarization Devices, Authorization Number: CN 201510212810.8, Application Date: 20150430; Authorization Date: 20171121

9.Jun Yang, Yonggui Yuan, Feng Peng, Libo Yuan, A Device and Method for Improving the Measurement Performance of Polarization Crosstalk of Optical Devices, Patent Number: 201210379407.0. Application Date: 20121009; Authorization Date: 20141203;

10.Jun Yang, Yonggui Yuan, Feng Peng, Libo Yuan, An All-Fiber Test Device for Measuring Polarization Crosstalk of Optical Devices, Patent Number: 201210379406.6. Application Date: 20121009; Authorization Date: 20150225

11.Jun Yang, Feng Peng, Bing Wu, Yonggui Yuan, Libo Yuan, An Ultra-Short Baseline Differential Disc Optical Fiber Displacement Sensor and Optical Fiber Strain Gauge, Chinese Invention Patent, ZL 201210381977.3. Application Date: 20121010; Authorization Announcement Date: 20150408

12.Jun Yang, Feng Peng, Bing Wu, Yonggui Yuan, Libo Yuan, Push-Pull Optical Fiber Displacement Sensor and Optical Fiber Strain Gauge with Compliant Column Structure, 201210381908.2. Application Date: 20121010; Authorization Announcement Date: 201505027

13.Jun Yang, Feng Peng, Bing Wu, Yonggui Yuan, Libo Yuan, Single-Frequency Polarization Laser Interferometer and Laser Strain Gauge with Optical Path Doubling, 201210381909.7. Application Date: 20121010; Authorization Announcement Date: 201505027

14.Jun Yang, Chuang Li, Yonggui Yuan, Feng Peng, Bing Wu, Libo Yuan, An Optical Coherent Domain Polarization Measureming Device, Patent Number: ZL201310739314.9. Application Date: 20131230; Authorization Date: 20151209

15.Jun Yang, Bing Wu, Yonggui Yuan, Dekai Yan, Feng Peng, Libo Yuan, Optical Coherent Domain Polarization Measureming Device with Optical Path Scanning Position And Velocity Correction, Application Number: CN201410120591.6, Application Date: 20140328; Authorization Date: 20160504

16.Jun Yang, Jun Chai, Yonggui Yuan, Bing Wu, Feng Peng, Libo Yuan, An Optical Coherent Polarization Measurement Device That Can Suppress Interference Noise, Application Number: CN201410120901.4, Application Date: 20140328; Authorization Date: 20160504

17.Jun Yang, Chuang Li, Yonggui Yuan, Feng Peng, Bing Wu, Libo Yuan, A Device and Detection Method for Suppressing Polarization Crosstalk Measurement Noise Using a Light Source, Application Number: CN201410120580.8, Application Date: 20140328; Authorization Date: 20160629

18.Jun Yang, Bing Wu, Yonggui Yuan, Dekai Yan, Feng Peng, Libo Yuan, An Optical Coherent Domain Polarization Measurement Device with Optical Path Scanning and Online Correction, Application Number: CN201410120888.2, Application Date: 20140328; Authorization Date: 20160629

19.Jun Yang, Yonggui Yuan, Feng Peng, Bing Wu, Libo Yuan, Polarization Fading Suppression Device and Suppression Method for Optical Coherent Polarization Measurement, Application Number: CN201410105302.5, Application Date: 20140321; Authorization Date: 20160629

20.Jun Yang, Yonggui Yuan, Bing Wu, Feng Peng, Libo Yuan, Polarization Fading Suppression Device and Suppression Method for White Light Interference Sensing Array, Application Number: CN201410105304.4, Application Date: 20140321; Authorization Date: 20160

Research Projects

1. Development and Application of High Precision Fiber-Optic Gyro Detection and Diagnostic Instrument（2013YQ040815），National Development Project of Major Instruments of Ministry of Science and Technology of China (MOST) , 2013.10~2017.9，6113万元，Technical Leader，National Level

1.1 Research on High-Precision Distributed Parameter Testing Technology of Key Devices of Fiber Optic Gyro（2013YQ04081501），National Development Project of Major Instruments of MOST, 2013.10~2016.9, 10.9778 million，Task Leader，National Level

2. Ultra-High Optical Fiber Calibration and Calibration Technology（JZX2017－1092/Y348），Pre-research on Equipment for the Military's Shared Information System，2017.9~2020.12, 3 million, Project Leader, National Level

3. Optical Fiber White Light Interference Testing Technology（61422505），National Natural Science Foundation for Distinguished Scholars, 2015.1~2017.12，1 million，Project Leader，National Level

4. General Testing System of Optical Fiber Sensor with Ultra-high Resolution and Ultra-Large Dynamic Range （61227013），National Natural Science Foundation of China, Special Fund for Basic Research Program of Scientific Instruments, 2013.1~2016.12，2.90 million，Project Leader，National Level

5. Research on the Key Technologies of Optical Fiber Seismometers with Ultra-high Sensitivity, Broadband and Large Dynamic Range（ZD201205），The Key Program of Heilongjiang Provincial Natural Science Foundation, 2013.1-2014.12，200 thousand，Project Leader，Provincial-Ministerial Level

6. Research on Monitoring Methods and Key Technologies of Optical Fiber Seismometer with High-Precision, Broadband and Large-Dynamic Range（NCET-12-0623），Program for New Century Excellent Talents in University of Ministry of Education of China, 2013.1-2015.12，500 thousand, Project Leader，National Level

7. Research on Low-Cost Distributed Greenhouse Gas Monitoring Technology （2010DFA22770）,A Sub-project for International S&T Cooperation Projects of MOST, 2011.1-2013.12，1.26 million，Project Leader，National Level

8. Research on the Mechanism of Vanishing Field Sensing Based on Single-Core-Ring Waveguide Fiber（60807032）, National Natural Science Foundation of China，2009.1-2011.12，240 thousand，Project Leader，National Level

9. The Key Technologies and Devices of Photonic Bandgap Fiber for Micro Flow Sensing（61635007）, National Natural Science Foundation of China，2017.1-2021.12，2.80 million，Principal Investigator，National Level

10. Self-supporting Film Thickness Measurement Standard Device（2016YFF0200704）, National Major Research and Development Plan，2016.6-2020.11，2.3 million，Principal Investigator，National Level

Research Team

Advenced Photon Technology Research Team