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Associate Professor
Special-Term
Professor of Engineering
Associate Senior Title
 
 
 
 
 
 
Location: home > The Academicians
Details of the Faculty or Staff
Name  
Di Qingyun
Title  
  Professor
Highest Education  
  Ph.D.
Subject Categories  
  Applied Geophysics
Phone  
  010-82998216
Zip Code  
  100029
Fax  
  010-62010846
Email  
  qydi@mail.iggcas.ac.cn
Office  
  No.19 Beitucheng West Road, Chaoyang District, Beijing, 100029, China

Education and Appointments:

Dr. Di Qingyun
Research Professor 

Education
1998, Ph.D degree in Geophysics, Institute of Geophysics, CAS
1990, M.Sc. degree in  Geophysics, Chang-chun University of Geosciences
1987, B.Sc. degree in  Geophysics, Chang-chun University of Geosciences

Professional Experence:
2004-present, Professor in Geophysics, Institute of Geology and Geophysics, CAS 
1997-2004, Associate Professor in Surface Geophysics, Institute of Geophysics, CAS
1990-1997, Assistant Researcher in Surface Geophysics, Institute of Geophysics, CAS
2003.9-2004.7, Visiting Scholar in Physics Department of University of Alberta, Canada
2007.9-2008.7, Visiting Scholar in College of Mine and Earth Sciences of University of Utah, USA


Research Interests:
Research and Development of EM Instruments;
Controlled source electromagnetic data forward modeling and inversion;
Research on electric resistivity tomography and its application;
The research is about wave motion equation tomography for GPR wave.
Public Services:

Honors:
 

Supported Projects:
  1. 2004-2006, Geophysical exploration over long deep tunnel from Make River to Jiaqu River for west route of south-to north water transfer project. Supported by Yellow rive Committee.
  2. 2007-2009, Electromagnetic wave propagation theory and method study for large power control source, Key direction project from CAS (kzcx2-yw-1212009-2012).
  3. 2009-2012, Rock Deep geology structure exploration with geophysical method for preselected site of Beishan in Gansu province, projects of geology disposal of high level radioactive waste, Bureau of National defense science and technology industry.
  4. 2010-2013, Research of Surface Electromagnetic Prospecting (SEP) System, SinoProbe-09-02.
  5. 2012-2015,Underground resources subsystem, WEM project.
  6. 2013-2016, R&D of Key Instruments and Technologies for Deep Resources Prospecting (the National R&D Projects for Key Scientific Instruments), No.ZDYZ2012-1-05
  7. 2017-2022, Research on intelligent drilling technology, equipment system and related theory (the Strategic Priority Research Program of Chinese Academy of Sciences), NO. XDA14050000

Publications:
  1. 2020, Di, Qingyun; Li, Hai; Xue, Guoqiang; Zhang, Linbo . Pseudo-2-D Transdimensional Bayesian Inversion of the Full Waveform TEM Response From PRBS Source. In IEEE Trans. Geosci. Remote Sensing 58 (11), pp. 7602–7610. DOI: 10.1109/TGRS.2020.2982442.(SCI)
  2. 2020, Di, Qingyun; Fu, Changmin; An, Zhiguo; Wang, Ruo; Wang, Guangjie; Wang, Miaoyue . An application of CSAMT for detecting weak geological structures near the deeply buried long tunnel of the Shijiazhuang-Taiyuan passenger railway line in the Taihang Mountains. In Engineering Geology 268, p. 105517. DOI: 10.1016/j.enggeo.2020.105517.(SCI)
  3. 2020, Di, Qingyun; Xue, Guoqiang; Fu, Changmin; Wang, Ruo. An alternative tool to controlled-source audio-frequency magnetotellurics method for prospecting deeply buried ore deposits. In Science Bulletin 65 (8), pp. 611–615. DOI: 10.1016/j.scib.2020.02.007.(SCI)
  4. 2020, Di, Qingyun; Xue, Guoqiang; Zeng, Qingdong; Wang, Zhongxing; An, Zhiguo; Lei, Da. Magnetotelluric exploration of deep-seated gold deposits in the Qingchengzi orefield, Eastern Liaoning (China), using a SEP system. In Ore Geology Reviews 122, p. 103501. DOI: 10.1016/j.oregeorev.2020.103501.(SCI)
  5. 2020, Di, Qingyun; Fu, Changmin; Zhang, Meigen; Wang, Miaoyue. Determination of the absorption coefficient of radar waves in solid earth media. In Journal of Applied Geophysics 177, p. 104043. DOI: 10.1016/j.jappgeo.2020.104043.(SCI)
  6. 2020, Di, Qingyun; Xue, Guoqiang; Yin, Changchun; Li, Xiu. New methods of controlled-source electromagnetic detection in China. In Sci. China Earth Sci. 63 (9), pp. 1268–1277. DOI: 10.1007/s11430-019-9583-9.(SCI)
  7. 2020, Di, Qingyun; Xue, Guoqiang; Lei, Da; Wang, Zhongxin; Li, Hai; Olalekan, Fayemi. Demonstration of the newly developed MTEM systems for gold detection in China. In Geological Journal 55 (3), pp. 1763–1770. DOI: 10.1002/gj.3549.(SCI)
  8. 2019, Di, Qingyun; Zhu, Rixiang; Xue, Guoqiang; YIN, ChangChun; Li Xiu. New development of the Electromagnetic (EM) methods for deep exploration. In Chinese Journal of Geophysics (in Chinese) 62 (6), pp. 2128–2138. DOI: 10.6038/cjg2019M0633.(SCI)
  9. 2018, Di QingYun, Xue GuoQiang, Li Xiu. Inverse Theory and Applications in Geophysics. China Science Publishing & Media Ltd.
  10. 2018, Di, Qingyun; Xue, Guoqiang; Lei, Da; Wang, Zhongxing; Zhang, Yiming; Wang, Shun; Zhang, Qimao. Geophysical survey over molybdenum mines using the newly developed M-TEM system, Journal of Applied Geophysics, 2018, 158: 65-70. (SCI)
  11. 2018, Di, Qingyun; An, Zhiguo; Fu, Changmin; Wang, Zhongxing. Imaging underground electric structure over a potential HLRW disposal site, Journal of Applied Geophysics, 2018, 155: 102-109. (SCI)
  12. 2017, Di, Qingyun; Fu, Changmin; An, Zhiguo; Xu, Cheng; Wang, Yalu; Wang, Zhongxing. Field testing of the surface electromagnetic prospecting system. In Appl. Geophys. 14 (3), pp. 449–458. DOI: 10.1007/s11770-017-0639-4.(SCI)
  13. 2016, DI Qing-Yun. Surface Electromagnetic Prospecting System(SEP) and its application in typical mining area, science press.
  14. 2016, DI Qing-Yun, LEI Da, WANG Zhong-Xing et al, An integrated test of the multi-channel transient electromagnetic system.Chinese Journal Of Geophysics,59(12): 4399-4407. (SCI).
  15. 2015,DI Qing-Yun, Surface electromagnetic prospecting system (SEP) comparative test on Jinchuan nickel mine of Gansu Province.Chinese Journal Of Geophysics,58(10): 3845-3854. (SCI).
  16. 2015, DI Qing-Yun, XU Cheng, FU Chang-Min et al.Surface Electromagnetic Prospecting System(SEP)contrast test in Caosiyao molybdenum mine, inner mongolia.Chinese Journal Geophysics,58(8): 2654-2663.(SCI).
  17. 2013, DI Qing-Yun, FANG Guang-You, ZHANG Yi-Ming. Research of the Surface Electromagnetic Prospecting (SEP) system. Chinese Journal Geophysics, 2013, 56(11): 3629-3639. (SCI).
  18. 2013, DI Qing-Yun, Wang Miao-Yue, FU Chang-Min, LI Di-Quan, XU Cheng, ZHUO Xian-Jun. Electromagnetic characteristic research of “earth-ionosphere” model, science press.
  19. 2012, DI Qing-Yun, YANG Chang-Chun, ZHU Ri-Xiang. Key Technology Development of Deep Resources Exploration and Field Experimentation. Bulletin of the Chinese Academy of Sciences. 2012, 27(3): 389-394.
  20. 2012, DI Qing-Yun, FANG Guang-You, ZHANG Yi-Ming. Comparison of Surface Electromagnetic Prospecting (SEP) system and commercial instruments. 2012, 87,201-203.
  21. 2011, Qingyun Di, Zhiguo An, Ruo Wang, and Miaoyue Wang, Geophysical investigation on geological structures with different scale in preselected areas of high level radioactive waste, GEM expanded abstract.
  22. 2011, Qingyun Di, Zhiguo An, Changmin Fu, CSAMT Exploration Over Rock Deep Geology Structure for Radioactive Waste Repositories, The 9th International Workshop on the Application of Geophysics to Rock Engineering, 2011, 79-83.
  23. 2011, Qingyun Di, Changmin Fu, Ruo Wang, Cheng Xu, Zhiguo An, The characteristics of electromagnetic fields induced by different type sources, AGU expanded abstract, 2011, T51E-2405.
  24. 2011, Di Qingyun, An Zhiguo, Fu Changmin, Li Diquan, Cheng Hui, Some results of CSAMT survey in high level radioactive waste preselected site, CIGEW abstract, 2011, 311-314.2009, Di Q Y, Wang G J, Wang M Y, etal. Frequency response characteristics of target electric property with longbipole large power control source Chinese Journal of Geophysics, 52(1): 275-280. (SCI)
  25. 2009, Qingyun Di,Miaoyue Wang. Determining areas of leakage in the Da Ye Dam using multi-electrode resistivity. Bulletin of Engineering geology and Environment, 2009.7. (SCI)
  26. 2008, Qingyun Di, Miaoyue Wang and Meigen Zhang。Finite-element prestack depth migration in anisotropic media. Journal of Seismic Exploration, 17: 179-192. (SCI)
  27. 2008, Qingyun Di, etal. CSAMT data modeling and inversion and its application. Beijing, Science Press.
  28. 2008, Di Q Y, Wang M Y, Wang R, etal. Study of the long bipole and large power electromagnetic field. Chinese Journal of Geophysics, 2008, 51(6): 1917-1928. (SCI)
  29. 2008, Di Qingyun, Michael Zhdanov, Masashi Endo, Wang Ruo. Modeling of the long bipole electromagnetic field based on the integral equation method. The 19th International Workshop on Electromagnetic Induction in the Earth. 2008,Abstracts(1):692.
  30. 2007, Di Qingyun, Wang Ruo, Shi Kunfa and Li Yingxian. Application of CSAMT for deep geothermal exploration. Journal of Engineering Geology, 15(Suppl.): 203-207
  31. 2006, Di Qingyun, Martyn Unsworth, Wang Miaoyue, 2.5D finite-element CSAMT numerical inversion. Oil Geophysical prospecting, 41(1): 100-106.(EI)
  32. 2006, Qingyun Di, Meigen Zhang and Miaoyue Wang. Time-domain inversion of GPR data containing attenuation resulting from conductive losses. Geophysics, 2006, 71(5): k103-k109. (SCI)
  33. 2006, Di Qing-Yun,Wang Guang-Jie, Gong Fei, AN Zhi-Guo, Shi Kun-Fa, Li Ying-Xian, Wang Ruo Wang Miao-Yue. Geophysical exploration over the long deep shield tunnel for the west route project of diverging water from the Yangze river to Yellow river, 2006,49(6): 657-664. (SCI)
  34. 2006,Di Qing-Yun,Wang Guang-Jie, Gong Fei, An Zhi-Guo, Shi Kun-Fa, Li Ying-Xian, Wang Ruo Wang Miao-Yue. Geophysical exploration over the long deep shield tunnel for the west route project of diverging water from the Yangze river to Yellow river, Chinese Journal of Geophysics, 49(6): 657-664. (SCI)
  35. 2005.Di Qingyun, Wu Faquan Wang Guangjie, etal. Geophysical exploration over long deep tunnel for west route of south-to north water transfer project. Chinese Journal of Rock Mechanics and Engineering,24(20):3631-3638. (EI)
  36. 2005, Qingyun Di, Ruo Wang and Guangjie Wang. CSAMT research survey for preventing water bursting disaster in mining. 2005, Expanded Abstracts, 75th SEG Annual international meeting,Houston, PP1030-1032.
  37. 2004, Qingyun Di, Miaoyue Wang. Migration of ground-penetrating radar data with a finite element method that includes attenuation and dispersion, Geophysics, 69(2): 472-477. (SCI)
  38. 2004, Qingyun Di, Meigen Zhang and Miaoyue Wang, Time-domain Finite-element Wave Form Inversion of Acoustic Wave Equation, Journal of Computational Acoustics, 12(3):1-10.(SCI)
  39. 2004, Di Qingyun, Martyn Unsworth, Wang Miaoyue. 2.5-D CSAMT modeling with finite element method over 2-D complex earth media. Chinese Journal of Geophysics,47(4): 723-730. (SCI)
  40. 2004, Di Qingyun, Martyn Unsworth, Wang Miaoyue. 2.5 D CSAMT modeling with finite element method. Progress in Geophysics, 19(2):317-324.
  41. 2003, Di Qingyun and Wang Miaoyue. Jacobin matrix for the ground penetrating radar data imaging. Science technology and engineering, 3(1): 64-66.
  42. 2003, Di Qingyun, Dalai Ni, Ruo Wang and Miaoyue Wang, Resistivity tomography research. Progress in Geophysics, 18(2): 323-326.
  43. 2003, Di Qingyun and Miaoyue Wang. Prospecting possibility with electric method for thin water-bearing rock layer upper the coal layers. Progress in Geophysics, 18(4): 707-710.
  44. 2002, Qingyun Di, Miaoyue Wang, Kunfa Shi and Ligeng Zhang. An applied study on prevention of water bursting disaster in mines with the high resolution V6 system. Chinese Journal of Geophysics, 45(5): 744-748. (SCI)
  45. 2002, Qingyun Di, Miaoyue Wang, Kun Xu, Dam exploration with resistivity method. Journal of Engineering Geology, 10(1): 74-78.
  46. 2002, Qingyun Di, Miaoyue Wang, Kunfa Shi, etal. Multifunction system-V6 and its effectiveness in CSAMT exploration. Progress in Geophysics, 17(4): 663-670.
  47. 2002, Di Qingyun, Wang Miaoyue, Shi Kunfa, Mits Yamashita and Zhang Gengli. CSAMT Research Survey for Preventing Water Bursting Disaster in Mining. Geophysical Exploration, 2002.
  48. 2001, Qingyun Di and Miaoyue Wang, 3-D resistivity tomography by integral method. Chinese Journal of Geophysics, 44(6): 121-130. (SCI)
  49. 2001, Di Qingyun and Wang Miaoyue. Water resource exploration with CSAMT and high density resistivity method. Progress in Geophysics, 16(3): 53-57.
  50. 2000, Qingyun Di and Miaoyue Wang. Method for viscoelastic parameter determination using seismic waves and its application. Oil Geophysical Prospecting, 35(1): 51-55. (EI)
  51. 2000, Qingyun Di, Kun Xu and Miaoyue Wang. Attenuated GPR wave migration with Finite Element Method. Chinese Journal of Geophysics, 42(2): 257-263. (SCI)
  52. 2000,Di Qingyun, Zhu ling and Wang Miaoyue. 2-D Finite Element Modeling for Seismic Wave Response in Media with Sand Bodies. Physics of the Earth and Planetary Interiors, 120, 245-254. (SCI)
  53. 2000, Qingyun Di and Miaoyue Wang. 2D electrical resistivity imaging. CT theory and its application, 9(Suppl.): 44-48.
  54. 1999, Di Q.Y., and Wang M.Y. GPR wave modeling with finite element method. Chinese Journal of Geophysics, 42(6): 818-825. (SCI)
  55. 1999, Di Q.Y., and Wang M.Y. Two-dimensional resistivity tomography with FEM Chinese Journal of Rock Mechanics and Engineering, 18(3), 317-321. (EI) 
  56. 1999, Di Qingyun. Offset GPR data migration with finite element method. Chinese Science Abstracts, 5(2): 194-195
  57. 1999, Di Qingyun. Parameters determination for attenuation GPR data. Chinese Science Abstracts, 5(7): 912-914.
 
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