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Details of the Faculty or Staff
Name  
 LAN Haiqiang
Title  
   Professor
Highest Education  
   Ph.D.
Subject Categories  
   Geophysics
Phone  
   010-8299659
Zip Code  
   100029
Fax  
   010-62010846
Email  
   lanhq@mail.iggcas.ac.cn
Office  
   No.19 Beitucheng West Road, Chaoyang District, Beijing, 100029, China

Education and Appointments:

•    Lan Haiqiang
  Professor of Geophysics
  State Key Laboratory of Lithospheric and Environmental Coevolution
•    Education:
  09/2003-07/2007 B.S., Geophysics, Jilin University
  09/2007-06/2013 Ph.D., Geophysics, Institute of Geology and Geophysics, CAS, China
•    Employment:
  11/2012-05/2014  Research Associate, The University of Tulsa, USA
  06/2014-12/2015  Postdoctoral Fellow, Institute of Geology and Geophysics, Chinese Academy of Sciences
  01/2016-12/2022  Associate Professor, Institute of Geology and Geophysics, Chinese Academy of Sciences
  12/2022-Present   Professor, Institute of Geology and Geophysics, Chinese Academy of Sciences
  10/2018 -11/2019   Visiting Scholar, Observatoire Midi-Pyrénées, Toulouse, France

Research Interests:

I have a wide range of research interests, which mainly include numerical simulation of seismic wave propagation, seismic data processing and imaging methods, internal structure of the Earth and planets, crust and mantle properties and lithospheric evolution, physics of earthquakes and seismicity.


2022  Associate editor of《Terra Nova》
Public Services:

Honors:

2020  Outstanding youth fund, China
2015  Member of the Youth Innovation Promotion Association, Chinese Academy of Sciences
2014  Outstanding doctoral dissertation of Chinese Academy of Sciences
2013  Special Award of President Scholarship, Chinese Academy of Sciences
2010  Best Paper Award-----For the Excellent Poster Paper Presented at the 26th Annual Meeting of the Chinese Geophysical Society, Ningbo, China

Supported Projects:

PROJECTS GRANTS AS PRINCIPLE INVESTIGATOR

  • 2023-2028  “Fine structure and deformation of slabs in plate subduction-collision zones”, supported by Ministry of Science and Technology of the People’s Republic of China.
  • 2016-2019  “High-precision seismic wave traveltime tomography of three dimensions and its application for seismic data acquired at rugged surface”, supported by Chinese National Sciences Foundation (CNCF).
  • 2015-2016   “Traveltime computation in 3D models with surface topography”, supported by Chinese Postdoctoral Research Foundation.
  • 2014-2017   “High-precision seismic tomography for wide-angle seimsic data acquired at rugged surface”, supported by Chinese National Sciences Foundation (CNCF).
  • 2014-2015   “Traveltime computation in anisotropic media with surface topography”, supported by Chinese Postdoctoral Research Foundation.

PROJECTS PARTICIPATED

  • 2016-2021   “Mantle intrinsic heterogeneity and main interfacial properties”, supported by Strategic Priority Research Program (B) of the Chinese Academy of Sciences.
  • 2015-2019  “Detection of subduction structure of continental lithosphere in southeastern Qinghai-Tibet plateau”, supported by Chinese National Sciences Foundation (CNCF).
  • 2012-2017   “Comparison of lithospheric structures between Iran and Qinghai-Tibet plateau”, supported by Strategic Priority Research Program (B) of the Chinese Academy of Sciences.

Publications:

Journal Articles (*, corresponding author)

  1. Wu, Y., Pan, S., Lan, H.*,Chen, Y., J., Badal, and Qin, Z., 2024. Unsupervised-learning Stable Inverse Q Filtering for Seismic Resolution Enhancement,IEEE Transactions on Geoscience and Remote Sensing, PP.10.1109/TGRS.2024.3458870
  2. Wu, Y., Pan, S., Lan, H.*,J., Badal, Wei, Z., and Chen, Y., 2024. Automatic seismic first-break picking based on multi-view feature fusion network, Geophysical prospecting, 1-13,DOI: 10.1111/1365-2478.13592
  3. Zhou, X., Lan, H.*, Chen, L., Guo, G., U., Waheed, J., Badal, 2023. A topography dependent eikonal solver for accurate and efficient computation of traveltimes and their derivatives in 3D heterogeneous media. Geophysics, 88(2): U17-U29.
  4. Zhang, L., Li C., Zhang J., Zhou B., Zhao Y. S., Liu Y., D K. i, R. N. Mitchell, J. Li, Z. Zhang, L. Chen, X. Liang, W. Sun, Y. Liu, X. Zhao, J. Hao, C. Xu, Y. Zheng, Y. Wang, X. Wang, P. Zhao, W. Lv, Y. Li, Lan, H., Y. Li, W. Wang, Y. Lu, H. Lin, P. Fang, W. Lin, Y. Wei, L. Chen, G. Fang, Y. Lin, Z. Yao, Y. Pan, 2023. Buried palaeo-polygonal terrain detected underneath Utopia Planitia on Mars by the Zhurong radar. Nature Astronomy, doi: 10.1038/s41550-023-02117-3.
  5. Li, C., Zheng, Y., Wang, X., Zhang, J., Wang, Y., Chen, L., Zhang, L., Zhao, P., Liu, Y., Lv, W., Liu, Y., Zhao, X., Hao, J., Sun, W., Liu, X., Jia, B., Li, J., Lan, H., Fa, W., Pan, Y., Wu, F., 2022. Layered subsurface in Utopia Basin of Mars revealed by Zhurong rover radar. Nature, 610, 308-312. https://doi.org/10.1038/s41586-022-05147-5.
  6. Lan, H.*, Chen, L., Chevrot, S., Talebian, M., Wang, X., Gao, Y., et al., 2022. Structure of the western Jaz Murian forearc basin, southeast Iran, revealed by autocorrelation and polarization analysis of teleseismic P and S waves. Journal of Geophysical Research: Solid Earth, 127: e2021JB023456.
  7. Gao, Y., Chen, L., Morteza Talebian, Wu, Z., Wang, X., Lan, H., Ai, Y., Jiang, M., Hou G., Mohammad Mahdi Khatib, Xiao, W., Zhu, R., 2022. Mechanically weak zones protect the non-rigid blocks in the interior of the Iranian plateau from significant deformation. Earth and Planetary Science Letters, 578: 117284.
  8. Guo, G., Lan, H.*, X. Zhou, Y. Liu, U. B. Waheed, and J. Chen, 2022. Topography-dependent eikonal tomography based on the fast-sweeping scheme and the adjoint-state technique: Geophysics, 87: U29-U41.
  9. Wu, Z., Chen, L., Talebian, M., Wang, X., Jiang, M., Ai, Y., Lan, H., Gao, Y., Khatib, M.M., Hou, G., (2021). Lateral structural variation of the lithosphere-asthenosphere system in the northeastern to eastern Iranian plateau and its tectonic implications. Journal of Geophysical Research: Solid Earth, 126: e2020JB020256.
  10. Zhou, X., Lan, H.*, Chen, L., Guo, G., Pan, S., 2021. An iterative, factored topography-dependent eikonal solver for anisotropic media. Geophysics, 86(5): 1-58.
  11. Zhou, X., Lan, H.*, Chen, L., et al. 2020. The factored eikonal equation in curvilinear coordinate system and its numerical solution. Chinese Journal of Geophysics,63(2): 638-651.
  12. Pan, S., Yan, K., Lan, H., Badal, J., Qin, Z., 2020. A sparse spike deconvolution algorithm based on a recurrent neural network and the iterative shrinkage-thresholding algorithm. Energies, 13: 3074.
  13. Liu, Y. S., Xu, T., Wang, Y., Teng, J., Badal, J., and Lan, H., 2019. An efficient source wavefield reconstruction scheme using single boundary layer values for the spectral element method. Earth Planet. Phys., 3(4): 342–357. http://doi.org/10.26464/epp2019035
  14. Pan, S., Qin, Z., Lan, H.*, José Badal, 2019. Automatic first-arrival picking method based on an image connectivity algorithm and multiple time windows, Computers and Geosciences, 123: 95-102.
  15. Pan, S., Yan, K., Lan, H.*,José Badal, Qin, Z, 2019. Adaptive step-size fast iterative shrinkage-thresholding algorithm and sparse-spike deconvolution, Computers and Geosciences, 134: 104343.
  16. Pan, S., Yan, K., Lan, H.*, Qin, Z., 2019. A Bregman adaptive sparse-spike deconvolution method in the frequency domain, Applied Geophysics, 123: 33-42.
  17. Guo, G., Lan, H.*, L. Chen, 2019. A comparative study of both model expansion and topography flatten in topography handling in seismic traveltime tomography: Chinese Journal of Geophysics, 62: 1704-1715
  18. Liu, X., Chen, J., Zhao, Z., Lan, H.,Liu, F., 2018. Simulating Seismic Wave Propagation in Viscoelastic Media with an Irregular Free Surface, Pure and Applied Geophysics, 175(10): 3419–3439.
  19. Liu, X., Chen, J., Lan, H., Zhao, Z., 2018. Seismic wavefield simulation with irregular surface topography and Graphic Processing Unit (GPU) implementation. Journal of Seismic Exploration, 27: 445-472.
  20. Hou, J., Liu, Y., Lan, H., et al., 2018. Elastic reverse time migration using a topography flattening scheme. Chinese Journal of Geophysics,61(4):1434-1446.
  21. Lan, H.*, Chen, L., Jose Badal, 2018. A hybrid method for calculating seismic wave first-arrival traveltimes in two-dimensional models with an irregular surface, Journal of Applied Geophysics, 155: 70-77.
  22. Lan, H.*, Chen, L., 2018. An upwind fast sweeping scheme for calculating seismic wave first-arrival traveltimes for models with an irregular free surface, Geophysical prospecting, 66(2): 327-341.
  23. Lan, H.,Chen, J., Zhang, Z., Liu, Y., Zhao, J. and Shi, R., 2016. Application of the perfectly matched layer in seismic wavefiled simulation with an irregular free surface, Geophysical prospecting, 64:112-128.
  24. Liang, X., Chen, Y., Tian, X., Chen, Y., Ni, J., Gallegos, A., Klemperer, K., Wang, M., Xu, T., Sun, C., Si, S., Lan, H., Teng, J., 2016. 3D imaging of subducting and fragmenting Indian continental lithosphere beneath southern and central Tibet using body-wave finite-frequency tomography, Earth and Planetary Science Letters, 443:162-175.
  25. Liu Y., Teng, J., Xu, T., Bai, Z., Lan, H. , Badal, J., 2016. A comparative study of finite element and spectral element methods in seismic wavefield modeling, Geophysics, 81(4): S2211-S238.
  26. Chen, Y., Xu, Y., Xu, T., Si, S., Liang, X., Tian, X., Deng, Y., Chen, L., Wang, P., Xu, Y., Lan, H., Xiao, F., Li, W., Zhang, X., Yuan, X., Badal, J., Teng, J., 2015. Magmatic underplating and crustal growth in the Emeishan Large Igneous Province, SW China, revealed by a passive seismic experiment. Earth and Planetary Science Letters, 432:103-114.
  27. Tian, X., Chen, Y., Tseng, T., Klemperer, S., Thybo, H., Liu, Z., Xu, T., Liang, X., Bai, Z., Zhang, X., Si, S., Sun, C., Lan, H., Wang, E., Teng, J., 2015. Weakly coupled lithospheric extension in southern Tibet, Earth and Planetary Science Letters, 430:171-177.
  28. Liu Y., Teng, J., Lan, H. , Si, X., Ma, X., 2014. A comparative study of finite element and spectral element methods in seismic wavefield modeling, Geophysics, 79(2): T91-T104.
  29. Lan, H.*, Zhang, Z., Chen, J., and Liu, Y., 2014. Reverse time migration from irregular surface by flattening surface topography, Tectonophysics, 627: 26-37.
  30. Lan, H., Chen, J., and Zhang, Z., 2014. A fast sweeping scheme for calculating p wave first-arrival travel times in transversely isotropic media with an irregular surface, Pure and Applied Geophysics, 171(9): 2199-2208.
  31. Lan, H.*, Zhang, Z., 2013. Topography-dependent eikonal equation and its solver for calculating first-arrival traveltimes with an irregular surface, Geophysical Journal International, 193: 1010-1026.
  32. Lan, H.*, Zhang, Z., 2013. A high-order fast-sweeping scheme for calculating first-Arrival travel times with an irregular surface, Bulletin of the Seismological Society of America, 103(3): 2070-2082.
  33. Lan, H.*, Zhang, Z., 2012. Seismic wave-field modeling in media with fluid-filled fractures and surface topography, Applied Geophysics, 9: 301-312.
  34. Lan, H.*, Zhang, Z., Xu, T., and Bai, Z., 2012. Study of the effects due to the anisotropic stretching of the surface-fitting grid on the traveltime computation for irregular surface by the coordinate transforming method, Chinese journal of geophysics(in Chinese), 55: 3355-3369.
  35. Lan, H.*, Zhang, Z., Xu, T., Bai, Z., and Liang, K., 2012. A comparative study on the fast marching and fast sweeping methods in the calculation of first-arrival traveltime field, Progress in Geophysics(in Chinese), 27(5): 1863-1870.
  36. Liu, Y., Lan, H.*, 2012. Study on the numerical solutions of the eikonal equation in curvilinear coordinate system, Chinese journal of geophysics, 55: 2014-2026.
  37. Yan, Y., Ma, X., Chen, Y., Wang, G., Wang, X., Lan, H., and Lv, Q., 2012. The study of magnetotelluric sounding on Coqen-Xainza profile in Tibet, Chinese journal of geophysics, 55: 2636-2642.
  38. Lan, H.*, Zhang, Z., 2011. Three-dimensional wave-field simulation in heterogeneous transversely isotropic medium with irregular free surface, Bulletin of the Seismological Society of America, 101(3): 1354-1370.
  39. Lan, H.*, Zhang, Z., 2011. Comparative study of free-surface boundary condition in two-dimensional finite-difference elastic wave-field simulation, Journal of Geophysics and Engineering,8: 275-286.
  40. Lan, H.*, Liu, J., and Bai, Z., 2011. Wave-field simulation in VTI media with irregular free surface, Chinese journal of geophysics (in Chinese), 54(8): 2072-2084.

Meeting Presentations/Posters

  1. Liu X., Chen, J., Lan, H., Zhao, Z., and Zhao, T., 2015. Numerical Modeling of Wave Propagation with an Irregular Free Surface and Graphic Processing Unit (GPU) Implementation, SEG Technical Program Expanded Abstracts, pp. 3704-3709.
  2. Liu Y., Teng, J., Lan, H., 2014. Elastic wave modeled by spectral element and finite element methods with triangles, SEG Technical Program Expanded Abstracts, pp. 3556-3561
  3. Lan, H., Chen, J., Zhang, Z., Liu, Y., and Zhao, J., 2013. Application of the perfectly matched layer in numerical modeling of wave propagation with an irregular free surface, SEG Technical Program Expanded Abstracts, pp. 3515-3520.
  4. Lan, H., Zhang, Z., 2012. Reverse time migration from irregular surface with boundary conforming grids, 15th International Symposium on Deep Seismic Profiling of the Continents and Their Margins, Beijing, China.
  5. Lan, H., Zhang, Z., 2012. A fast sweeping scheme for the computation of first-arrival travel times with an irregular surface, 28th Annual Meeting of the Chinese Geophysical Society, Beijing, China.
  6. Lan, H., Zhang, Z., 2010. A comparative study of free-surface boundary conditions for two-dimensional elastic finite-difference wave simulation, 26th Annual Meeting of the Chinese Geophysical Society, Ningbo, China.
  7. Lan, H., Zhang, Z., 2010. Wave-field simulation in heterogeneous transversely isotropic medium with irregular free surface, 14th International Workshop on Seismic Anisotropy, Perth, Australia.
 
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