论著

  1. J. Xu, J. Zhang*, 2024. Improving prestack time migration by introducing a new velocity-related parameter: Parameter picking and 3D real data application. Geophysics, 89(1): S119-S127
  2. K. Yang, J. Zhang*, 2022. Determination of the phase-velocity direction in anisotropic media using a direction vector. Geophysics, 87(6): C125-C138
  3. K. Yang, J. Zhang*, 2022. The inverse scattering imaging condition for anisotropic reverse time migration. Geophysics, 87(6): S303-S313 
  4. K. Yang, X. Dong, X. Wang, J. Zhang*, 2022. Deprimary reverse time migration angle gathers with a stabilized Poynting vector. Geophysics, 87(5): S267-S279
  5. K. Yang, X. Wang, J. Zhang*, 2022. Elastic reverse time migration angle gathers using a stabilized Poynting vector without zero points within the wave propagation ranges. Geophysics, 87(3): S137-S150   
  6. K. Yang, X. Dong, J. Zhang*, 2021. Polarity reversal correction for vector-based elastic reverse time migration. Geophysics, 86(1): S45-S58
  7. J. Xu, J. Zhang*, L. Liu, W. Zhang, H. Yang, 2020. Prestack time migration from 3D irregular surfaces with near-surface-related deabsorption. Geophysics, 85(1): S21-S32
  8. Z. Li, J. Zhang*, 2019. 3D diffraction imaging with Kirchhoff time migration using vertical traveltime difference gathers. Geophysics, 84(6): S555-S566.
  9. K. Yang, J. Zhang*, 2019. Comparison between Born and Kirchhoff operators for least-squares reverse time migration and the constraint of the propagation of the background wavefield. Geophysics, 84(5): R725-R739.
  10. B. Jiang, J. Zhang*, 2019. Least-squares migration with a blockwise Hessian matrix: A prestack time-migration approach. Geophysics, 84(4): R625-R640.
  11. C. Dong, S. Wang, J. Zhang, J. Ma, H. Zhang, 2019. Automatic migration velocity estimation for prestack time migration. Geophysics, 84(3): U1-U11
  12. K. Yang, J. Zhang, 2018. Least-squares reverse time migration with an angle-dependent weighting factor. Geophysics, 83(3): S299-S310
  13. J. Xu, J. Zhang, 2017. Prestack time migration of nonplanar data: Improving topography prestack time migration with dip-angle domain stationary-phase filtering and effective velocity inversion. Geophysics, 82(3): S235-S246
  14. J. Zhang, Z. Li, L. Liu, J. Wang, J. Xu, 2016. High-resolution imaging: An approach by incorporating stationary-phase implementation into deabsorption prestack time migration. Geophysics, 81(5): S317-S331
  15. J. Zhang, J. Zhang, 2014. Diffraction imaging using shot and opening-angle gathers: A prestack time migration approach. Geophysics, 79(2): S23–S33.
  16. J. Zhang, J. Wu, X. Li, 2013. Compensation for absorption and dispersion in prestack migration: An effective Q approach. Geophysics, 78(1): S1–S14
  17. J Zhang, J. Xu, H. Zhang, 2012. Migration from 3D irregular surfaces: A prestack time migration approach. Geophysics, 77(5): S117–S129.
  18. J. Zhang, H. Gao, 2011. Irregular perfectly matched layers for 3D elastic wave modeling. Geophysics, 76(2): T27-T36
  19. J. Zhang, L. Liu, 2007. Optimum split-step Fourier 3D depth migration: Developments and practical aspects. Geophysics, 72(3): S167-S175
  20. L. Liu, J. Zhang, 2006. 3D wavefield extrapolation with optimum split-step Fourier method. Geophysics, 71(3): T95-T108
  21. J. Zhang, 2005. Elastic wave modeling in fractured media with an explicit approach. Geophysics, 70(5): T75-T85
  22. J. Zhang, D.J. Verschuur, 2002. Elastic wave propagation in heterogeneous anisotropic media using the lumped finite element method. Geophysics, 67: 625-638
  23. Z. Li, J. Zhang*, 2020. Imaging 3D faults using diffractions with modified dip-angle gathers. Geophysical Journal International, 220: 1569-1584
  24. K. Yang, J. Zhang*, H. Gao, 2017. Unstructured mesh based elastic wave modelling on GPU: a double-mesh grid method. Geophysical Journal International, 211: 763-772.
  25. J. Zhang, H. Gao, 2009. Elastic wave modelling in 3D fractured media: An explicit approach. Geophysical Journal International, 177: 1233-1241.
  26. H. Gao, J. Zhang*, 2008. Implementation of perfectly matched layers in an arbitrary geometrical boundary for elastic wave modelling. Geophysical Journal International, 174: 1029-1036.
  27. H. Gao, J. Zhang*, 2006. Parallel 3-D simulation of seismic wave propagation in heterogeneous anisotropic media: a grid method approach. Geophysical Journal International, 165: 875-888
  28. J. Zhang, 2004. Elastic wave modelling in heterogeneous media with high velocity contrasts. Geophysical Journal International, 159: 223-239
  29. J. Zhang, 2004. Wave propagation across fluid-solid interfaces: a grid method approach. Geophysical Journal International, 159: 240-252
  30. J. Zhang, C.P.A. Wapenaar, 2003. Wavefield extrapolation and amplitude-variation-with-angle migration in highly discontinuous media. Geophysical Journal International, 155: 327-339
  31. J. Zhang, T. Liu, 2002. Elastic wave modelling in 3-D heterogeneous media: 3-D grid method. Geophysical Journal International, 150: 780-799
  32. J. Zhang, T. Liu, 1999. P-SV-wave propagation in heterogeneous media: grid method. Geophysical Journal International, 136: 431-438
  33. J. Zhang, 1999. Quadrangle-grid velocity-stress finite-difference method for poroelastic wave equations. Geophysical Journal International, 139: 171-182
  34. J. Zhang, 1997. Quadrangle grid velocity stress finite difference method for elastic wave propagation simulation. Geophysical Journal International, 131: 127-134
  35. J. Xu, J. Zhang*, 2023. Efficient prestack time migration velocity analysis: a correlation-based global optimization approach. Geophysical Prospecting, 71(6): 998–1011
  36. X. Wang, Y. Lu, J. Zhang, 2021. Elastic wave-mode separation in 2D transversely isotropic media using optical flow. Geophysical Prospecting, 69(2): 349-371.
  37. Y. Lu, Q. Liu, J. Zhang*, K. Yang, H. Sun, 2019. Poynting and polarization vectors based wavefield decomposition and their application on elastic reverse time migration in 2D transversely isotropic media. Geophysical Prospecting, 67: 1296-1311.
  38. Q. Liu, J. Zhang, 2018. Efficient dip-angle angle-domain common-image gather estimation using Poynting vector in acoustic reverse time migration and its application in noise suppression. Geophysical Prospecting, 66: 1714-1725.
  39. Q. Liu, J. Zhang, 2018. Trace-imposed stretch correction in Kirchhoff prestack time migration. Geophysical Prospecting, 66: 1643-1652. 
  40. Q. Liu, J. Zhang*, H. Gao, 2017. Reverse-time migration from rugged topography using irregular, unstructured mesh. Geophysical Prospecting, 65:453-466.
  41. J. Zhang, C.P.A. Wapenaar, 2006. High-resolution depth imaging with sparseness-constrained inversion. Geophysical Prospecting, 54: 49-62
  42. J. Zhang, C.P.A. Wapenaar, 2002. Wavefield extrapolation and prestack depth migration in anelastic inhomogeneous media. Geophysical Prospecting, 50: 629-643
  43. J. Zhang, D.J. Verschuur, C.P.A. Wapenaar, 2001. Depth migration of shot records in heterogeneous, transversely isotropic media using optimum explicit operators. Geophysical Prospecting, 49:287-299 
  44. M. Song, J. Zhang*, J. Zhang, 2020. Viscoacoustic least-squares migration with a blockwise Hessian matrix: an effective Q approach. Journal of Geophysics and Engineering, 17(4): 618–634.
  45. W. Liu, Q. Cheng, L. Liu, Y. Wang, J. Zhang*, 2020. Accelerating High-Resolution Seismic Imaging by Using Deep Learning. Applied Sciences, 10(7): 2502
  46. Q. Cheng, J. Zhang*, W. Liu, 2020. Extracting Fresnel zones from migrated dip-angle gathers using a convolutional neural network. Exploration Geophysics, DOI: 10.1080/08123985.2020.1798755
  47. J. Wang, J. Xu, J. Zhang, Q. Liu, L. Liu, 2020. High-resolution imaging: a wavelet stretch correction in de-absorption prestack time migration approach. Exploration Geophysics, 51(4): 446-455
  48. Q. Liu, J. Zhang, 2020. Topography Least‑Squares Reverse‑Time Migration Based on Adaptive Unstructured Mesh. Surveys in Geophysics, 41(2): 343-361
  49. X .Wang, J. Zhang*, 2022. Fast wave-mode separation in anisotropic elastic reverse time migration using the phase velocity-related Poynting vector. Journal of Computational Physics, 461: 111200
  50. Q. Liu, J. Zhang, Y. Lu, H. Gao, S. Liu, H. Zhang, 2019. Fast Poynting-vector based wave-mode separation and RTM in 2D elastic TI media. Journal of Computational Physics, 381: 27-41.
  51. H. Sun, J. Zhang*, 2019. 3D acoustic wave modeling based on irregular grid method with double-mesh implementation. Acta Geophysica Sinica, 62(9): 3534-3544
  52. J. Xu, W. Liu, J. Wang, L. Liu, J. Zhang, 2018. An efficient implementation of 3D high-resolution imaging for large-scale seismic data with GPU/CPU heterogeneous parallel computing. Computers & Geosciences, 111: 272 – 282
  53. J. Xu, H. Zhang, J. Zhang, 2018. A robust surface-consistent residual phase correction method based on migrated gathers. Exploration Geophysics, 49(3): 336-344 
  54. W. Liu, J. Zhang*, 2018. De-absorption prestack time migration: steep dip structure imaging and its application. Chinese Journal of Geophysics-Chinese Edition, 61(2): 707-715
  55. Z. Li, J. Zhang, W. Liu, 2018. Diffraction imaging using dip-angle and offset gathers. Acta Geophysica Sinica, 61(4): 1447-1459
  56. Z. Hou, X. Liu, Y. Liu, J. Zhang, H. Gao, J. Wang, 2018. Determining elastic parameters of shale reservoirs based on computational rock physics methods. Acta Geophysica Sinica, 61(7): 3019-3027
  57. J. Xu, H. Zhang, J. Zhang, Z. Li, W. Liu, 2017. Pre-stack time migration based on stationary-phase stacking in the dip-angle domain. Journal of Geophysics and Engineering, 14: 272-282.
  58. J. Wang, W. Liu, J. Zhang, Z. Zhao, 2017. Building a heterogeneous Q model: an approach using surface reflection data. Journal of Seismic Exploration, 26:293-310.
  59. H. Zhang, J. Zhang, Z. Li, J. Zhang, J. Xiao, 2017. Improving the imaging resolution of 3D PSTM in VTI media using optimal summation within the Fresnel zone. Journal of Seismic Exploration, 26(4): 311-330
  60. K. Yang, J. Zhang, 2017. Least-squares reverse time migration based on unstructured gird. Chinese Journal of Geophysics-Chinese Edition, 60(3): 1053-1061
  61. Y. Lu, J. Zhang, K. Yang, J. Hu, 2017. Vector elastic reverse time migration based on unstructured mesh for 2D tilted TI medium. Chinese Journal of Geophysics-Chinese Edition, 60(12): 4776-4789
  62. Q. Liu, J. Zhang, H. Zhang, 2016. Eliminating the redundant source effects from the cross-correlation reverse-time migration using a modified stabilized division. Computers & Geosciences, 92: 49-57
  63. H. Zhang, J. Xu, Q. Liu, J. Zhang, 2016. Imaging 2D rugged topography seismic data: A direct PSTM approach integrated with residual static correction. Journal of Seismic Exploration, 25: 339-358
  64. J. Xu, J. Zhang, 2016. Residual static correction based on migrated gathers. Chinese Journal of Geophysics-Chinese Edition, 59(2): 655-663
  65. H. Dou, J. Zhang, 2016. An irregular grid method for acoustic modeling in inhomogeneous viscoelastic medium. Chinese Journal of Geophysics-Chinese Edition, 59(11): 4212-4222   
  66. Z. Wei, H. Gao, J. Zhang, 2014. Time-domain full waveform inversion based on an irregular-grid acoustic modeling method. Acta Geophysica Sinica, 57(2): 586-594
  67. J. Zhang, H. Zhang, L. Liu, 2013. Incident angle field estimation: a one-way propagator approach. Chinese Journal of Geophysics-Chinese Edition, 56: 953-960
  68. L. Liu, H. Zhang, J. Zhang, 2013. Angle gathers for one-way wave equation shot-record migration methods. Chinese Journal of Geophysics-Chinese Edition, 56: 3124-3123
  69. Z. Hou, D. Xiong, J. Zhang, 2013. Application of the preconditioned conjugate gradient method to reconstruction of seismic data. Chinese Journal of Geophysics-Chinese Edition, 56: 1321-1330
  70. J. Zhang, J. Zhang, 2012. Amplitude-preserved pre-stack time migration in 3D VTI media. Exploration Geophysics, 43:171-177
  71. H. Zhang, J. Zhang, 2012. 3D prestack time migration including surface topography. Chinese Journal of Geophysics-Chinese Edition, 55: 1335-1344
  72. B. Lu, J. Zhang, B. Pu, 2012. Pre-stack time migration in angle-domain: a one-way propagator approach in inhomogeneous media. Chinese Journal of Geophysics-Chinese Edition, 55: 3795-3804
  73. J. Zhang, J. Zhang, 2011. Wave equation based migration velocity estimation: a direct inversion approach. Chinese Journal of Geophysics-Chinese Edition, 54: 835-844
  74. L. Liu, J. Zhang, 2011. Wave equation prestack depth migration method in 3D VTI media. Chinese Journal of Geophysics-Chinese Edition, 54: 2906-2915
  75. X. Li, X. Lu, J. Zhang, 2011. Prestack time migration in anelastic media based on designing for short operator. Chinese Journal of Geophysics-Chinese Edition, 54: 193-199  
  76. C. Dong, J. Zhang, 2010. Prestack time migration incorporated with redatuming. Chinese Journal of Geophysics-Chinese Edition, 53: 2435-2441
  77. C. Dong, J. Zhang, 2009. Prestack time migration including surface topography. Chinese Journal of Geophysics-Chinese Edition, 52: 239-244
  78. D. Xiong, W. Zhao, J. Zhang, 2009. Hybrid-domain high-resolution parabolic Radon transform and its application to demultiplex. Chinese Journal of Geophysics-Chinese Edition, 52: 1068-1077.
  79. H. Zhang, C. Wang, J. Zhang, 2009. One-way wave equation based illumination analysis in angle domain. Chinese Journal of Geophysics-Chinese Edition, 52: 1606-1614
  80. J. Zhang, B. Lu, L. Liu, 2008. Frequency-dependent varying-step depth extrapolation scheme for wave equation based migration. Chinese Journal of Geophysics-Chinese Edition, 51: 221-227  
  81. Y. Xu, J. Zhang, 2008. An irregular-grid perfectly matched layer absorbing boundary for seismic wave modeling. Chinese Journal of Geophysics-Chinese Edition, 51: 1520-1526  
  82. D. Xiong, J. Zhang, 2008. Table-Driven 2-D non-uniform sampling fast Fourier transform. Chinese Journal of Geophysics-Chinese Edition, 51: 1860-1867
  83. W. Wang, J. Pei, J. Zhang, 2007. Prestack seismic data reconstruction using weighted parabolic Radon transform. Chinese Journal of Geophysics-Chinese Edition, 50: 851-859
  84. L. Liu, X. Chen, J. Zhang, H. Liu, 2007. Wave equation depth migration with symmetric non-stationary phase shift method in axi-symmetrical anisotropic media. Chinese Journal of Geophysics-Chinese Edition, 50: 277-284
  85. J. Zhang, W. Wang, 2006. Multiple attenuation: An approach by incorporating multiple prediction with Radon transform. Journal of Seismic Exploration, 15: 79-97
  86. L. Liu, J. Zhang*, 2006. Optimum split-step Fourier one-way operators for seismic modeling and imaging in 3D VTI media. Geophysical Research Letters, 33: L09308
  87. L. Liu, S. Chen, J. Zhang, 2006. Steep dipping structure depth imaging using wave equation based migration schemes on 3-D sparse dataset. Chinese Journal of Geophysics-Chinese Edition, 49: 1452-1459  
  88. L. Liu, H. Gao, H. Liu, J. Zhang, 2005. Wave equation depth migration with optimum split-step Fourier method in 3-D VTI media. Acta Geophysica Sinica, 48: 406-414
  89. L. Liu, F. Cui, J. Zhang, 2004. Seismic modeling with one-way wave equation in 3D complex structures.  Chinese Journal of Geophysics-Chinese Edition, 47: 514-520  
  90. J. Zhang, 2001. Triangle-quadrangle grid method for poroelastic, elastic, and acoustic wave equations. Journal of Computational Acoustics, 9: 681-702
  91. J. Zhang, T. Liu, 2000. Numerical simulation of elastic wave propagation in anisotropic media. Acta Mechanica Solida Sinica, 13: 50-59
  92. J. Zhang, Y. Li, 1997. Numerical simulation of elastic wave propagation in inhomogeneous media. Wave Motion, 25: 109-125
  93. J. Zhang, S. Liu, 1997. Transmission boundary condition for mixed variable finite-difference method. Acta Mechanica Solida Sinica, 10: 366-373
  94. J. Zhang, 1994. A convergent iterative algorithm for solving elastic wave-form inversion. Science in China (Series A), 37: 459-468



授权发明专利
1. 张剑锋, 刘伟,王进, 刘礼农;基于地面接收的反射地震资料的Q值场建模方法,2018,中国,ZL201611001706.5
2. 张剑锋,徐锦承,李正伟,刘礼农;一种三维倾角域稳相叠前时间偏移方法及系统,2016,中国,ZL201410571405.0
3. 张剑锋,吴吉忠;一种提高地震成像分辨率的方法,2016,中国,ZL201310270919.8
4. 张剑锋,张江杰;识别小断距断点的散射波叠前成像方法,2015,中国,ZL201210322310.6
5. 张剑锋,吴吉忠,李雪英;补偿吸收衰减的叠前时间偏移方法,2014,中国,ZL201210017518.7
6. 张剑锋,张浩;起伏地表采集的三维地震资料的直接叠前时间偏移方法,2013,中国,ZL201110057579.1
7. 张剑锋,张江杰,张浩,井涌泉;各向异性三维叠前时间偏移方法,2012,中国,ZL201010597160.0
8. 张剑锋,张辉,刘礼农;波动方程偏移直接产生角道集方法,2011,中国,ZL200910238212.2
9. 张剑锋,董春晖;起伏地表下采集的地震资料的直接叠前时间偏移方法,2011,中国,ZL200810114133.6
10. 赵伟,张剑锋等; 一种三维时间域照明分析及振幅补偿方法, 2016,中国,ZL201310692195.6
11. 赵伟,张剑锋等; 三维保幅叠前时间偏移方法, 2012,中国,ZL201010288431.4
12. 张江杰,张剑锋,刘礼农; 提升波动方程叠前深度偏移成像效果的方法, 2012,中国,ZL201110029735.3
13. 芦永明、张剑锋、刘前程、胡锦银; 弹性波矢量成像方法、装置、存储介质及设备,2019,中国,ZL201711018691.8
14. 刘礼农、刘伟、张剑锋; 基于反射地震资料建立深度域层Q模型的方法和系统,2019,中国,ZL201810220271.6
15. 刘礼农、李正伟、刘伟、张剑锋; 三维倾角域稳相叠前深度偏移方法和装置,2019,中国,ZL201810534842.3

16. 刘礼农、刘伟、张剑锋; 叠前深度偏移方法和装置,2019,中国,ZL201810776303.0

17. 徐锦承、刘礼农、张剑锋; 近地表Q偏移方法及装置,2019,中国,ZL201811129861.4

18. 刘礼农、高红伟、刘伟、张剑锋; 数据优化方法及积分法叠前深度偏移方法,2019,中国,ZL201910397720.9

19. 刘礼农, 张江杰, 张剑锋; 地震叠前道集数据生成方法及装置,2020,中国,ZL202010294105.8

20. 刘礼农,张江杰,李正伟,许宏桥,高红伟,张剑锋; 地震剖面成像方法、装置和电子设备,2020,中国,ZL202010907288.6

21. 刘礼农,李正伟,卢宝坤,张江杰,张剑锋;基于方位角-倾角道集的绕射波成像方法和装置,2020,中国,ZL 202010793059.6  

22. Liu Linong, Zhengwei Li, Baokun Lu, Jiangjie Zhang, Jianfeng Zhang. Method and Device for Imaging Diffracted Waves Based on Azimuth-dip Angle Gathers, and Storage Medium,  2022, 美国, US11327193B2

23. Linong Liu, Hongwei Gao, Wei Liu,Jianfeng Zhang. Data Optimization Method and Integral Prestack Depth Migration Method 2021, 美国, US11209563B2