教师系列
张剑锋讲席教授
联系电话：?
电子邮箱：zhangjf@sustech.edu.cn
办公地点：创园9栋 405室
研究方向: 勘探地球物理、计算地震学
个人主页:faculty.sustech.edu.cn/zhangjf/


简历
研究领域
教学
论文专著










讲席教授。1984、1987和1990年在大连理工大学分别获学士、硕士和博士学位。先后在大连理工大学(1990-2002)和中国科学院地质与地球物理研究所(2002-2019)工作，1995年起任教授，2008年被聘为首批二级研究员。1998、2001、2004年在荷兰Delft理工大学，2008年在美国Stanford大学从事客座研究工作。主要从事地震波传播与成像研究。曾主持国家****基金、国家自然科学重点基金、国家科技重大专项课题、863项目和大型油气企业委托项目研究。多项成果在油气勘中得到很好应用，研发的偏移成像方法与软件已成为中石油油气勘探开发的核心技术，为大庆油田致密油勘探和剩余油挖潜做出了重要贡献。提出了一类非规则、非结构网格弹性地震波数值模拟方法，解决了三维不规则表面、含裂缝介质和液固耦合构造中地震波模拟等困难问题。发表SCI论文87篇，在Geophysics、Geophys. J. Int.和Geophys. Prosp. 这三个权威勘探地球物理期刊发表论文37篇，获发明专利授权18项。

教育背景
1987-1990，结构力学博士，大连理工大学，工程力学系
1984-1987，实验力学硕士，大连理工大学，工程力学系
1980-1984，工程力学学士，大连理工大学，工程力学系

工作经历
2019.10- 教授、讲席教授，南方科技大学，地球与空间科学系
2002.10-2019.09 研究员，中国科学院地质与地球物理研究所
1995.08-2002.09 教授，大连理工大学，工程力学系
1989.12-1995.07 讲师、副教授，大连理工大学，工程力学系
2008.09-2008.12， 访问教授，美国斯坦福大学，地球物理系
2004.06-2004.12， 客座研究员，荷兰Delft理工大学，地球科学系
2001.05-2001.12， 客座研究员，荷兰Delft理工大学，地球科学系
1998.10-1999.11， 访问****，荷兰Delft理工大学，应用物理系

荣誉奖项
2006，享受国务院特殊津贴
2006， 入选新世纪百千****才工程国家级人选
2002， 获国家****基金资助
2002， 入选中国科学院****（终评估优秀）
2019, 深圳市国家级领军人才


1. 1.地震成像与油气资源地震勘探
2. 2.复杂介质中地震波数值模拟与地震特征

论著

K. Yang, X. Dong, J. Zhang*, 2021. Polarity reversal correctionfor vector-based elastic reverse time migration. Geophysics, 86(1): S45-S58
J. Xu, J. Zhang*, L. Liu, W. Zhang, H. Yang, 2020. Prestacktime migration from 3D irregular surfaces with near-surface-related deabsorption. Geophysics, 85(1): S21-S32
Z. Li, J. Zhang*, 2019. 3D diffraction imaging with Kirchhofftime migration using vertical traveltime difference gathers. Geophysics, 84(6): S555-S566.
K. Yang, J. Zhang*, 2019. Comparison between Born and Kirchhoffoperators for least-squares reverse time migration and the constraint of thepropagation of the background wavefield. Geophysics,84(5): R725-R739.
B. Jiang, J. Zhang*, 2019. Least-squares migration with ablockwise Hessian matrix: A prestack time-migration approach. Geophysics, 84(4): R625-R640.
C. Dong, S. Wang, J. Zhang, J. Ma, H. Zhang, 2019. Automaticmigration velocity estimation for prestack time migration. Geophysics, 84(3): U1-U11
K. Yang, J.Zhang, 2018. Least-squares reverse time migration with an angle-dependent weightingfactor. Geophysics, 83(3): S299-S310
J. Xu, J.Zhang, 2017. Prestack time migration of nonplanar data: Improving topographyprestack time migration with dip-angle domain stationary-phase filtering andeffective velocity inversion. Geophysics,82(3): S235-S246
J. Zhang, Z. Li, L. Liu, J. Wang, J. Xu, 2016. High-resolutionimaging: An approach by incorporating stationary-phase implementation into deabsorptionprestack time migration. Geophysics, 81(5): S317-S331
J.Zhang, J. Zhang, 2014. Diffractionimaging using shot and opening-angle gathers: A prestack time migration approach. Geophysics, 79(2): S23–S33.
J. Zhang, J. Wu, X. Li, 2013. Compensationfor absorption and dispersion in prestack migration: An effective Q approach. Geophysics, 78(1):S1–S14
J Zhang, J. Xu, H. Zhang, 2012. Migrationfrom 3D irregular surfaces: A prestack time migration approach. Geophysics, 77(5): S117–S129.
J. Zhang, H. Gao,2011. Irregular perfectly matched layers for 3D elastic wave modeling. Geophysics, 76(2): T27-T36
J. Zhang, L. Liu,2007. Optimum split-step Fourier 3D depth migration: Developments and practicalaspects. Geophysics, 72(3): S167-S175
L.Liu, J. Zhang, 2006. 3D wavefield extrapolation withoptimum split-step Fourier method. Geophysics, 71(3): T95-T108
J. Zhang, 2005.Elastic wave modeling in fractured media with an explicit approach. Geophysics,70(5): T75-T85
J. Zhang, D.J. Verschuur, 2002. Elastic wave propagation in heterogeneousanisotropic media using the lumped finite element method. Geophysics, 67: 625-638
Z. Li, J. Zhang*, 2020. Imaging 3D faults using diffractions with modified dip-angle gathers. GeophysicalJournal International,220: 1569-1584
K. Yang, J.Zhang*, H. Gao, 2017. Unstructured mesh based elastic wave modelling onGPU: a double-mesh grid method. GeophysicalJournal International, 211: 763-772.
J. Zhang, H. Gao,2009. Elastic wave modelling in 3D fractured media: An explicit approach. GeophysicalJournal International, 177: 1233-1241.
H. Gao, J. Zhang*, 2008.Implementation of perfectly matched layers in an arbitrary geometrical boundaryfor elastic wave modelling. Geophysical Journal International, 174: 1029-1036.
H. Gao, J. Zhang*, 2006. Parallel3-D simulation of seismic wave propagation in heterogeneous anisotropic media: agrid method approach. Geophysical Journal International, 165: 875-888
J. Zhang, 2004.Elastic wave modelling in heterogeneous media with high velocity contrasts. GeophysicalJournal International, 159: 223-239
J. Zhang, 2004.Wave propagation across fluid-solid interfaces: a grid method approach. GeophysicalJournal International, 159: 240-252
J. Zhang, C.P.A.Wapenaar, 2003. Wavefield extrapolation and amplitude-variation-with-anglemigration in highly discontinuous media. Geophysical Journal International, 155: 327-339
J. Zhang, T. Liu, 2002. Elastic wave modelling in 3-D heterogeneous media: 3-D gridmethod. Geophysical Journal International, 150: 780-799
J. Zhang, T. Liu, 1999. P-SV-wave propagation in heterogeneousmedia: grid method. Geophysical Journal International, 136: 431-438
J. Zhang, 1999.Quadrangle-grid velocity-stress finite-difference method for poroelastic wave equations. GeophysicalJournal International, 139:171-182
J. Zhang, 1997.Quadrangle grid velocity stress finite difference method for elastic wavepropagation simulation. Geophysical Journal International,131: 127-134
X. Wang,Y. Lu, J. Zhang, 2021. Elastic wave-mode separation in 2Dtransversely isotropic media using optical flow. Geophysical Prospecting, 69(2): 349-371.
Y. Lu,Q. Liu, J. Zhang*,K. Yang,H. Sun,2019. Poynting and polarization vectors based wavefield decomposition and theirapplication on elastic reverse time migration in 2D transversely isotropicmedia. Geophysical Prospecting, 67: 1296-1311.
Q. Liu, J. Zhang, 2018. Efficient dip-angle angle-domain common-imagegather estimation using Poynting vector in acoustic reverse time migration andits application in noise suppression. GeophysicalProspecting, 66: 1714-1725.
Q. Liu, J.Zhang, 2018. Trace-imposed stretch correction in Kirchhoff prestack timemigration. Geophysical Prospecting, 66:1643-1652.
Q. Liu, J.Zhang*, H. Gao, 2017. Reverse-time migration from rugged topography usingirregular, unstructured mesh. GeophysicalProspecting, 65:453-466.
J. Zhang, C.P.A.Wapenaar, 2006. High-resolution depth imaging with sparseness-constrained inversion. GeophysicalProspecting, 54: 49-62
J. Zhang, C.P.A.Wapenaar, 2002. Wavefield extrapolation and prestack depth migration inanelastic inhomogeneous media. Geophysical Prospecting, 50: 629-643
J. Zhang, D.J. Verschuur,C.P.A. Wapenaar, 2001. Depth migration of shot records in heterogeneous,transversely isotropic media using optimum explicit operators. GeophysicalProspecting, 49:287-299
M. Song, J. Zhang*, J.Zhang, 2020. Viscoacoustic least-squares migration with a blockwise Hessian matrix:an effective Q approach. Journal of Geophysics andEngineering, 17(4): 618–634.
W. Liu, Q. Cheng, L. Liu, Y. Wang, J. Zhang*, 2020. Accelerating High-Resolution Seismic Imagingby Using Deep Learning. AppliedSciences, 10(7): 2502
Q. Cheng, J. Zhang*, W. Liu, 2020. Extracting Fresnel zonesfrom migrated dip-angle gathers using a convolutional neural network. ExplorationGeophysics, DOI: 10.1080/**.2020.**
J. Wang, J. Xu, J. Zhang, Q. Liu, L. Liu, 2020. High-resolution imaging: a waveletstretch correction in de-absorption prestack time migration approach. Exploration Geophysics, 51(4): 446-455
Q. Liu, J. Zhang, 2020. Topography Least?Squares Reverse?Time Migration Based on Adaptive UnstructuredMesh. Surveys in Geophysics, 41(2): 343-361
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.
H. Sun, J. Zhang*, 2019. 3D acoustic wave modeling based on irregular gridmethod with double-mesh implementation. Acta Geophysica Sinica, 62(9): 3534-3544
J. Xu, W.Liu, J. Wang, L. Liu, J. Zhang, 2018. An efficient implementation of 3Dhigh-resolution imaging for large-scale seismic data with GPU/CPU heterogeneousparallel computing. Computers &Geosciences, 111: 272 – 282
J. Xu,H. Zhang, J. Zhang, 2018. A robustsurface-consistent residual phase correction method based on migrated gathers. ExplorationGeophysics,49(3): 336-344
W. Liu, J. Zhang*, 2018. De-absorption prestack time migration: steep dipstructure imaging and its application. Chinese Journal of Geophysics-ChineseEdition, 61(2): 707-715
Z. Li, J. Zhang, W. Liu, 2018. Diffraction imaging using dip-angle and offsetgathers. Acta Geophysica Sinica, 61(4): 1447-1459
Z. Hou, X. Liu, Y. Liu, J. Zhang, H. Gao, J. Wang, 2018. Determiningelastic parameters of shale reservoirs based on computational rock physicsmethods. Acta Geophysica Sinica, 61(7): 3019-3027
J. Xu, H. Zhang, J. Zhang, Z. Li, W. Liu,2017. Pre-stack time migration based on stationary-phase stacking in the dip-angledomain. Journal of Geophysics and Engineering, 14: 272-282.
J. Wang,W. Liu, J. Zhang, Z. Zhao, 2017. Building a heterogeneous Q model: an approachusing surface reflection data. Journal of Seismic Exploration, 26:293-310.
H. Zhang, J. Zhang, Z. Li, J.Zhang, J. Xiao, 2017. Improving the imaging resolution of 3D PSTM in VTImedia using optimal summation within the Fresnel zone. Journal of SeismicExploration, 26(4): 311-330
K. Yang, J. Zhang,2017. Least-squares reverse time migration based on unstructured gird. ChineseJournal of Geophysics-Chinese Edition, 60(3): 1053-1061
Y. Lu, J. Zhang,K. Yang, J. Hu, 2017. Vector elastic reverse time migration based onunstructured mesh for 2D tilted TI medium. Chinese Journal of Geophysics-ChineseEdition, 60(12): 4776-4789
Q. Liu, J.Zhang, H. Zhang, 2016. Eliminating the redundant source effects from thecross-correlation reverse-time migration using a modified stabilized division. Computers& Geosciences, 92: 49-57
H. Zhang,J. Xu, Q. Liu, J. Zhang, 2016. Imaging 2D rugged topography seismicdata: A direct PSTM approach integrated with residual static correction. Journalof Seismic Exploration, 25: 339-358
J. Xu, J. Zhang,2016. Residual static correction based on migrated gathers. Chinese Journalof Geophysics-Chinese Edition, 59(2): 655-663
H. Dou, J. Zhang,2016. An irregular grid method for acoustic modeling in inhomogeneous viscoelasticmedium. Chinese Journal of Geophysics-Chinese Edition, 59(11): 4212-4222
Z. Wei, H. Gao, J.Zhang, 2014. Time-domain full waveform inversion based on an irregular-gridacoustic modeling method. Acta Geophysica Sinica, 57(2): 586-594
J. Zhang, H. Zhang,L. Liu, 2013. Incident angle field estimation: a one-way propagator approach. ChineseJournal of Geophysics-Chinese Edition, 56: 953-960
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
Z.Hou, D. Xiong, J. Zhang, 2013. Application of the preconditionedconjugate gradient method to reconstruction of seismic data. Chinese Journalof Geophysics-Chinese Edition, 56: 1321-1330
J. Zhang, J.Zhang, 2012. Amplitude-preservedpre-stack time migration in 3D VTI media. Exploration Geophysics, 43:171-177
H. Zhang, J.Zhang, 2012. 3D prestack time migration including surface topography. ChineseJournal of Geophysics-Chinese Edition, 55: 1335-1344
B. Lu, J. Zhang,B. Pu, 2012. Pre-stack time migration in angle-domain: a one-way propagator approachin inhomogeneous media. Chinese Journal of Geophysics-Chinese Edition, 55:3795-3804
J. Zhang, J. Zhang, 2011. Waveequation based migration velocity estimation: a direct inversion approach. ChineseJournal of Geophysics-Chinese Edition, 54: 835-844
L. Liu, J. Zhang, 2011. Waveequation prestack depth migration method in 3D VTI media. Chinese Journal ofGeophysics-Chinese Edition, 54: 2906-2915
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
C. Dong, J.Zhang, 2010. Prestack time migration incorporated with redatuming. Chinese Journal of Geophysics-Chinese Edition,53: 2435-2441
C. Dong, J.Zhang, 2009. Prestack time migration including surface topography. ChineseJournal of Geophysics-Chinese Edition, 52: 239-244
D. Xiong, W. Zhao, J. Zhang, 2009. Hybrid-domain high-resolution parabolic Radon transformand its application to demultiplex. Chinese Journal of Geophysics-ChineseEdition, 52: 1068-1077.
H. Zhang, C. Wang, J. Zhang, 2009. One-way wave equation based illumination analysis inangle domain. Chinese Journal of Geophysics-Chinese Edition, 52: 1606-1614
J. Zhang, B. Lu,L. Liu, 2008. Frequency-dependent varying-step depth extrapolation scheme for waveequation based migration. Chinese Journal of Geophysics-Chinese Edition,51: 221-227
Y. Xu, J. Zhang,2008. An irregular-grid perfectly matched layer absorbing boundary for seismicwave modeling. Chinese Journal of Geophysics-Chinese Edition, 51:1520-1526
D. Xiong, J. Zhang,2008. Table-Driven 2-D non-uniform sampling fast Fourier transform. ChineseJournal of Geophysics-Chinese Edition, 51: 1860-1867
W. Wang, J. Pei, J.Zhang, 2007. Prestack seismic data reconstruction using weighted parabolic Radontransform. Chinese Journal of Geophysics-Chinese Edition, 50: 851-859
L. Liu, X. Chen, J.Zhang, H. Liu, 2007. Wave equation depth migration with symmetric non-stationaryphase shift method in axi-symmetrical anisotropic media. Chinese Journal ofGeophysics-Chinese Edition, 50: 277-284
J. Zhang, W. Wang,2006. Multiple attenuation: An approach by incorporating multiple predictionwith Radon transform. Journalof Seismic Exploration, 15: 79-97
L.Liu, J. Zhang*, 2006. Optimum split-step Fourier one-wayoperators for seismic modeling and imaging in 3D VTI media. GeophysicalResearch Letters, 33:L09308
L. Liu, S. Chen, J. Zhang, 2006. Steep dipping structuredepth imaging using wave equation based migration schemes on 3-D sparse dataset. Chinese Journal of Geophysics-Chinese Edition, 49: 1452-1459
L. Liu, H. Gao, H.Liu, J. Zhang, 2005. Wave equation depth migration with optimum split-stepFourier method in 3-D VTI media. Acta GeophysicaSinica, 48: 406-414
L. Liu, F. Cui, J.Zhang, 2004. Seismic modeling with one-way wave equation in 3D complex structures. ChineseJournal of Geophysics-Chinese Edition, 47: 514-520
J. Zhang, 2001.Triangle-quadrangle grid method for poroelastic, elastic, and acoustic wave equations. Journal of Computational Acoustics, 9: 681-702
J. Zhang, T. Liu,2000. Numerical simulation of elastic wave propagation in anisotropic media. ActaMechanica Solida Sinica, 13:50-59
J. Zhang, Y. Li,1997. Numerical simulation of elastic wave propagation in inhomogeneous media. WaveMotion, 25: 109-125
J. Zhang, S. Liu,1997. Transmission boundary condition for mixed variable finite-difference method. ActaMechanica Solida Sinica, 10:366-373
J. Zhang, 1994.A convergent iterative algorithm for solving elastic wave-form inversion. Sciencein 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，ZL6.5
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，ZL5.0
3. 张剑锋，吴吉忠；一种提高地震成像分辨率的方法，2016，中国，ZL9.8
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，ZL0.6
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，ZL8.7
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，ZL9.1
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，ZL0.0
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，ZL2.2
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，ZL3.6
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，ZL5.6
11. 赵伟，张剑锋等; 三维保幅叠前时间偏移方法, 2012，中国，ZL1.4
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，ZL5.3
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，ZL1.8
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，ZL1.6
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，ZL2.3
16.刘礼农、刘伟、张剑锋； 叠前深度偏移方法和装置，2019，中国，ZL3.0
17. 徐锦承、刘礼农、张剑锋； 近地表Q偏移方法及装置，2019，中国，ZL1.4
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，ZL0.9