张伟教授，北京大学地球物理学学士和博士学位。2007-2010在美国罗德岛大学海洋研究生院（GSO）做博士后研究；2010-2013在美国GeoTomo公司任资深科学家进行石油勘探技术研发；2013-2017年在中国科学技术大学任教，担任教授；2017年加入南方科技大学，担任教授和地空系副主任。长期致力于复杂介质地震波传播计算理论和复杂内部结构和震源成像方法研究，系统解决了起伏地形对地震波传播影响的计算问题，发展了复杂地表地区基于地震物理过程模拟的强地面运动预测方法、复杂近地表高精度波形反演技术和考虑复杂速度结构和起伏地形的天然地震和微地震监测新技术等。开发了具有自主知识产权的大规模起伏地形三维地震波传播模拟软件CGFD3D，被同行广泛用于强地面运动、大地震破裂过程、波形反演等研究。发表学术期刊论文100篇（其中第一作者/通讯作者46篇；SCI论文73篇；JGR:Solid Earth/GJI/Geophysics论文39篇）。

教育背景

1999-2006，地球物理学博士，北京大学，地球与空间科学学院

1995-1999，地球物理学学士，北京大学，地球物理系

工作经历

2017.04- 教授，南方科技大学，地球与空间科学系 副主任

2013.03-2017.03 教授，中国科学技术大学，地球和空间科学学院

2010.10-2013.02 资深科学家（Senior Scientist），美国休斯顿 GeoTomo 公司

2007.03-2010.09 博士后，美国罗德岛大学，海洋研究生院

2006.07-2007.02 研究助理，北京大学，地球与空间科学学院

学术兼职

国际地震学和地球内部物理学协会（IUGG-IASPEI）中国委员会副主席（2020-）
国际勘探地球物理学家学会（SEG）中国指导委员会委员（2016-）
中国地震学会地震专业委员会副主任（2021-）
中国地球物理学会青年工作委员会副主任（2018-）
中国地球物理学会勘探地球物理委员会委员（2018-）
中国地球物理学会油气地球物理专业委员会委员（2017-）
 中国地球物理学会中国大陆动力学专业委员会委员（2021-）
中国地球物理学会智能地球物理专业委员会委员（2022-）
中国石油学会石油物探专业委员会委员（2022-）
广东省地球物理学会副理事长（2019-）
广东省地震学会理事（2018-）
《地球物理学报》期刊责任编委
《石油地球物理勘探》期刊编委
《石油物探》期刊编委
《物探化探计算技术》期刊编委
《地震学报》期刊编委
《Earthquake Science》期刊编委

研究领域

1. 复杂介质地震波数值模拟算法和高性能计算

2. 油气资源地震勘探和地球内部结构成像

3. 非常规油气水力压裂微地震监测和天然地震监测技术

4. 强地面运动模拟和地震危害性分析

论文专著

1.    Gan, H., Pan, X., Tang, K., Hu, N., & Zhang, W*. (2022). EWR-Net: Earthquake Waveform Regularization Network for Irregular Station Data Based on Deep Generative Model and ResNet. Journal of Geophysical Research: Solid Earth, 127(10), e2022JB024122. DOI: 10.1029/2022JB024122

2.    Zhang, Q., Zhang, W.*, Wu, X.*, Zhang, J., Kuang, W., & Si, X. (2022). Deep Learning for Efficient Microseismic Location Using Source Migration-Based Imaging. Journal of Geophysical Research: Solid Earth, 127(3), e2021JB022649. DOI: 10.1029/2021JB022649

3.    Zhou, J., Hu, N., Hu, Y., & Zhang, W.* (2022). Feasibility of Estimating Parameters and Enhancing Reflections of Dipping Moho From Teleseismic P Wave Coda Autocorrelation. Journal of Geophysical Research: Solid Earth, 127(5), e2021JB023688. DOI: 10.1029/2021JB023688

4.    Zhou, Y., Zhang, Q., & Zhang, W.* (2022). PS interferometric imaging condition for microseismic source elastic time-reversal imaging. Geophysical Journal International, 229(1), 505–521. https://doi.org/10.1093/gji/ggab504

5.    Zhang, C., & Zhang, W.* (2022). Efficient 2D Acoustic Wave Finite-Difference Numerical Simulation in Strongly Heterogeneous Media Using the Adaptive Mesh Refinement (AMR) Technique. GEOPHYSICS, 87(1), T29–T42. DOI: 10.1190/geo2020-0801.1

6.    Cao, W., Li, Q., Zhang, J., & Zhang, W.* (2022). Accelerating 2D and 3D frequency-domain seismic wave modeling through interpolating frequency-domain wavefields by deep learning. GEOPHYSICS, 87(4), T315–T328. DOI: 10.1190/geo2021-0435.1

7.    Jiang, X., Zhang, W.*, Yang, H., Zhao, C., & Wang, Z. (2022). Transdimensional simultaneous inversion of velocity structure and event locations in downhole microseismic monitoring. GEOPHYSICS, 87(1), KS1–KS16. DOI: 10.1190/geo2021-0182.1

8.    Zhang, Q., & Zhang, W.* (2022). An efficient diffraction stacking interferometric imaging location method for microseismic events. GEOPHYSICS, 87(3), KS73–KS82. DOI: 10.1190/geo2021-0233.1

9.    Jiang, X., Yang, H., & Zhang, W. (2022). Velocity calibration by incremental pseudo-master events for single-well microseismic monitoring. GEOPHYSICS, 87(4), KS125-KS134. DOI: 10.1190/geo2020-0925.1

10.  Zhang, H., Sun, Y.-C., Ren, H., Zhang, W., Huang, Q., & Chen, X. (2023). Discontinuous curvilinear collocated grid combined with nonuniform time step Runge-Kutta scheme for poroelastic finite-difference modeling. GEOPHYSICS, T1–T12. DOI: 10.1190/geo2022-0180.1

11.  Kuang, W., Yuan, C., Zhang, J., & Zhang, W.* (2022). Relative Focal Mechanism Inversion and Its Application to Ridgecrest Sequence. Seismological Research Letters. DOI: 10.1785/0220210370

12.  Wang, W., Zhang, Z., Zhang, W., Yu, H., Liu, Q., Zhang, W., & Chen, X. (2022). CGFDM3D‐EQR: A Platform for Rapid Response to Earthquake Disasters in 3D Complex Media. Seismological Research Letters, 93 (4): 2320–2334. DOI: 10.1785/0220210172

13.  Lyu, M., Chen, K., Xue, C., Zang, N., & Zhang, W. (2022). Overall subshear but locally supershear rupture of the 2021 Mw 7.4 Maduo earthquake from high-rate GNSS waveforms and three-dimensional InSAR deformation. Tectonophysics, 229542. DOI: 10.1016/j.tecto.2022.229542

14.  Tian, X., Zhang, J., & Zhang, W. (2022). A hybrid workflow for updating 1D velocity model and microseismic event location. Journal of Applied Geophysics, 200, 104642. DOI: 10.1016/j.jappgeo.2022.104642

15.  Zhang, H., Sun, Y.-C., Ren, H., Ma, B., Zhang, W., Huang, Q., & Chen, X. (2022). 2D electromagnetic simulation for ground penetrating radar with a topographic ground surface by the curvilinear collocated-grid finite-difference method combined with equivalent field method. Journal of Applied Geophysics, 206, 104812. DOI: 10.1016/j.jappgeo.2022.104812

16.  Wang, Y., & Zhang, W.* (2022). Theoretical and quantitative evaluation of hybrid PML-ABCs for seismic wave simulation. Earthquake Science, 35(2), 105–121. DOI: 10.1016/j.eqs.2022.05.002

17.  Xu, Y., Chen, X., Zhang, W., & Pan, X. (2022). An Adaptive Modal Discontinuous Galerkin Finite Element Parallel Method Using Unsplit Multi-Axial Perfectly Matched Layer for Seismic Wave Modeling. Communications in Computational Physics, 31(4), 1083–1113. DOI: 10.4208/cicp.OA-2021-0118

18.  Yuan, S., Zhang, Z., Ren, H., Zhang, W., Song, X., & Chen, X. (2022). Finite‐Difference Modeling and Characteristics Analysis of Love Waves in Anisotropic‐Viscoelastic Media. Bulletin of the Seismological Society of America, 112(1), 23–47. DOI: 10.1785/0120200372

19.  Zheng, F., Xu, T., Ai, Y., Yang, Y., Zeng, Q., Yu, B., Zhang, W., Xie, T. (2022). Metallogenic potential of the Wulong goldfield, Liaodong Peninsula, China revealed by high-resolution ambient noise tomography. Ore Geology Reviews, 142, 104704. DOI: 10.1016/j.oregeorev.2022.104704

20.  Zhou, H.-W., Zou, Z., Zhang, W., Liu, Q., & Hu, H. (2022). Editorial: Reverse Time Imaging in Solid Earth and Exploration Geophysics. Frontiers in Earth Science, 10, 931127. DOI: 10.3389/feart.2022.931127

21.  尹晓菲, 王芃, 张伟, 邵志刚, 曹文忠, & 熊仁伟. (2022). 2022年1月8日青海门源MS6.9地震强地面运动模拟及烈度分布估计. 地震学报, 44(2), 237-244. DOI: 10.11939/jass.20220011

22.  张春丽 & 张伟*. (2022). 二维弹性波自适应网格有限差分模拟方法. 中山大学学报(自然科学版), 61(1), 125–138. DOI: 10.13471/j.cnki.acta.snus.2021D073

23.  芦永明 & 张伟*. (2022). 求解二次方程的二维TI介质qSV波和qSH波走时快速扫描算法. 地球物理学报, 61(1), 244-255. DOI: 10.6038/cjg2022O0446

24.  蒋星达, 张伟*, & 陈晓非. (2022). 水平层状VTI介质高效射线追踪计算方法. 地球物理学报, 65(09), 3540–3553. DOI: 10.6038/cjg2022P0639

25.  蒋星达, 张伟 & 杨辉. (2022). 贝叶斯方法在地球物理反演问题中的应用进展. 地球与行星物理论评, 53(2), 159–171. DOI: 10.19975/j.dqyxx.2021-042

26.  Zhou, J., & Zhang, W.* (2021). Extracting Reliable P-Wave Reflections From Teleseismic P Wave Coda Autocorrelation. Journal of Geophysical Research: Solid Earth, 126(11), e2021JB022064. DOI: 10.1029/2021JB022064

27.  Zheng, X.-Z., Ren, H., Butler, K. E., Zhang, H., Sun, Y.-C., Zhang, W., et al. (2021). Seismoelectric and Electroseismic Modeling in Stratified Porous Media With a Shallow or Ground Surface Source. Journal of Geophysical Research: Solid Earth, 126(9), e2021JB021950. DOI: 10.1029/2021JB021950

28.  Yuan, S., Ren, H., Huang, Q., Zheng, X.-Z., Yang, Z., He, Z., Zhang, W., & Chen, X. (2021). Refining Higher Modes of Rayleigh Waves Using Seismoelectric Signals Excited by a Weight-Drop Source: Study From Numerical Simulation Aspect. Journal of Geophysical Research: Solid Earth, 126(5), e2020JB021336. DOI: 10.1029/2020JB021336

29.  Jiang, L., & Zhang, W.* (2021). TTI equivalent medium parametrization method for the seismic waveform modelling of heterogeneous media with coarse grids. Geophysical Journal International, 227(3), 2016–2043. DOI: 10.1093/gji/ggab310

30.  Lu, Y., & Zhang, W.* (2021). A fast sweeping method for calculating qP-wave traveltimes in 3-D vertical transversely isotropic media using a quadratic equation. Geophysical Journal International, 227(3), 2121–2136. DOI: 10.1093/gji/ggab324

31.  Zang, N., Zhang, W.*, & Chen, X. (2021). An Overset Grid Finite-Difference Algorithm to Simulating Elastic Wave Propagation in Media with Complex Free Surface Topography. GEOPHYSICS, 86(4), T277–T292. DOI: 10.1190/geo2020-0915.1

32.  Xu, Jincheng, Zhang, W., Liang, X., Rong, J., & Li, J. (2021). Joint microseismic moment tensor inversion and location using P- and S-waves diffraction stacking. GEOPHYSICS, 86(6), 1–62. DOI: 10.1190/geo2021-0104.1

33.  Zhang, X., Chen, H., Zhang, W., Tian, X., & Chu, F. (2021). Generalized neural network trained with a small amount of base samples: Application to event detection and phase picking in downhole microseismic monitoring. GEOPHYSICS, KS95–KS108. DOI: 10.1190/geo2020-0955.1

34.  Cui, X., Song, X., Xu, L., Zhu, Y., Li, B., & Zhang, W.* (2021). Three dimensional crustal P-wave structure beneath the central south segment of the Tanlu Fault Zone determined by local earthquake travel-time tomography. Terra Nova, 33(6), 613–620. DOI: 10.1111/ter.12553

35.  Huo, Y., Zhang, W.*, & Zhang, J. (2021). Centroid Moment Tensor of the 2019 Mw 5.7 Changning Earthquake Refined Using 3D Green’s Functions Considering Surface Topography. Frontiers in Earth Science, 9. DOI: 10.3389/feart.2021.642721

36.  Huo, Y., Zhang, W.*, Zhang, J., & Yang, H. (2021). Using microseismic events to improve the accuracy of sensor orientation for downhole microseismic monitoring. Geophysical Prospecting, 69(6), 1167–1180. DOI: 10.1111/1365-2478.13099

37.  Li, X., & Zhang, W.* (2021). Application of Snell’s law in reflection raytracing using the multistage fast marching method. Earthquake Research Advances, 1(1), 100009. DOI: 10.1016/j.eqrea.2021.100009

38.  Sun, Y., Zhang, W., Ren, H., Bao, X., Xu, J., Sun, N., et al. (2021). 3D Seismic‐Wave Modeling with a Topographic Fluid–Solid Interface at the Sea Bottom by the Curvilinear‐Grid Finite‐Difference Method. Bulletin of the Seismological Society of America. DOI: 10.1785/0120200363

39.  Xie, T., Xu, T., Ai, Y., Zeng, Q., Zhang, W., & Zheng, F. (2021). Imaging the shallow crustal velocity structure of the Qingchengzi ore field on the Liaodong Peninsula, China, with a short-period dense array using ambient noise tomography. Tectonophysics, 813, 228913. DOI: 10.1016/j.tecto.2021.228913

40.  Xu, Jianxia, Zhang, W., & Chen, X. (2021). An optimized finite difference method based on a polar coordinate system for regional-scale irregular topography. Earthquake Science, 34(4), 334–343. DOI: 10.29382/eqs-2021-0022

41.  Zhang, X., Zhang, W., & Zhang, J. (2021). Detecting and locating microseismic events with stacking velocity analysis for surface monitoring. Journal of Applied Geophysics, 104470. DOI: 10.1016/j.jappgeo.2021.104470

42.  徐剑侠, 张伟 & 陈晓非. (2021). 极坐标系有限差分中起伏地表边界条件处理. 地球物理学报, 64(02), 546–554. DOI: 10.6038/cj92021M0316

43.  田宵, 汪明军, & 张伟*. (2021). 卷积神经网络在地面微地震多道P波极性分类中的应用. 中国地震, 37(02), 309–321.

44.  田宵, 汪明军, 张雄, 张伟, & 周立. (2021). 邻近算法在微地震震源位置和一维速度模型同时反演中的应用. 中国地震, 37(02), 452–462.

45.  陈凤英, 张伟*, 李灿苹, & 刘一林. (2021). 高密度采集对于海上复杂叠置砂体的应用研究. 海洋技术学报, 40(05), 117-123. DOI: 10.3969/j.issn.1003-2029.2021.05.014

46.  Tian, X., Zhang, W.*, Zhang, X., Zhang, J., Zhang, Q., Wang, X., & Guo, Q. (2020). Comparison of Single-Trace and Multiple-Trace Polarity Determination for Surface Microseismic Data Using Deep Learning. Seismological Research Letters, 91(3), 1794–1803. DOI: 10.1785/0220190353

47.  Xu, J., Zhang, W.*, Chen, X., & Guo, Q. (2020). An effective polarity correction method for microseismic migration-based location. GEOPHYSICS, 85(4), KS115–KS125. DOI: 10.1190/geo2019-0497.1

48.  Xu, J., Zhang, J., Liu, L., Zhang, W., & Yang, H. (2020). Prestack time migration from 3D irregular surfaces with near-surface related deabsorption. Geophysics, 85(1), S21–S32. DOI: 10.1190/geo2019-0259.1

49.  丁超, 张伟 & 杨辉. (2020). 基于波动方程差分和Kirchhoff积分的被动源弹性波逆时成像对比研究. 物探化探计算技术, 42(04), 429–441. DOI: 10.3969/j.issn.1001-1749.2020.04.01

50.  徐旭, 徐锦承, & 张伟. (2020). 2017年四川九寨沟M_s7.0地震及余震定位研究. 中国地震, 36(02), 324–332.

51.  杨茜娜 & 张伟* (2020). 复频移完全匹配层在复杂速度模型中的应用. 石油地球物理勘探, 55(06), 1271–1281. DOI: 10.13810/j.cnki.issn.1000-7210.2020.06.013

52.  高潇, 张伟*, 徐锦承, 杨辉, 邵理阳, 潘权, 宋章启 (2020). 应用Squeeze算法实现地震数据高效压缩. 物探化探计算技术, 42(05), 582–595. DOI: 10.3969/j.issn.1001-1749.2020.05.04

53.  Xu, J., Zhang, W.*, Chen, X., & Guo, Q. (2019). Minimum semblance weighted stacking with polarity correction for surface microseismic data processing. The Leading Edge, 38(8), 630–636. DOI: 10.1190/tle38080630.1

54.  Fu, H., Chen, B., Zhang, W., Zhang, Z., Zhang, W., Yang, G., & Chen, X. (2019). Extreme-scale earthquake simulations on Sunway TaihuLight. CCF Transactions on High Performance Computing, 1(1), 14–24. DOI: 10.1007/s42514-019-00004-w

55.  Gao, Y., Wang, D., Yao, C., Guan, W., Hu, H., Wen, J., Zhang, W., et al. (2019). Simulation of seismoelectric waves using finite-difference frequency-domain method: 2-D SHTE mode. Geophysical Journal International, 216(1), 414–438. DOI: 10.1093/gji/ggy433

56.  Sun, Y.-C., Ren, H., Zheng, X.-Z., Li, N., Zhang, W., Huang, Q., & Chen, X. (2019). 2-D poroelastic wave modelling with a topographic free surface by the curvilinear grid finite-difference method. Geophysical Journal International, 218(3), 1961–1982. DOI: 10.1093/gji/ggz263

57.  Wang, N., Li, J., Borisov, D., Gharti, H. N., Shen, Y., Zhang, W., & Savage, B. (2019). Modeling Three-Dimensional Wave Propagation in Anelastic Models With Surface Topography by the Optimal Strong Stability Preserving Runge-Kutta Method. Journal of Geophysical Research: Solid Earth, 124(1), 890–907. DOI: 10.1029/2018JB016175

58.  Li, J., Shen, Y., & Zhang, W. (2018). Three-dimensional passive-source reverse-time migration of converted waves: The method. Journal of Geophysical Research: Solid Earth, 123(2), 2017JB014817. DOI: 10.1002/2017JB014817

59.  Sun, Y., Zhang, W., & Chen, X. (2018). 3D Seismic Wavefield Modeling in Generally Anisotropic Media with a Topographic Free Surface by the Curvilinear Grid Finite‐Difference Method. Bulletin of the Seismological Society of America, 108(3A), 1287–1301. DOI: 10.1785/0120170154

60.  Wang, Y., & Zhang, W. (2018). Preface to special issue on recent advances in computational seismology and its applications. Earthquake Science, 31(2), 53–54. DOI: 10.29382/eqs-2018-0053-1

61.  朱强, 姜芦倩, & 张伟. (2018). 介质离散方法对地震波场有限差分数值模拟准确性的影响. 石油物探, 57(02), 198–207. DOI: 10.3969/j.issn.1000-1441.2018.02.004

62.  李宏, 杨心超, 朱海波, 张伟, & 曲寿利. (2018). 水力压裂微地震震源定位与震源机制联合反演研究. 石油物探, 57(02), 312–320. DOI: 10.3969/j.issn.1000-1441.2018.02.017

63.  蒋星达, 张伟, 王仔轩, 李光, & 陈晓非. (2018). 基于总变分(TV)正则化约束的微地震井下速度模型校正. 物探化探计算技术, 40(05), 559–564. DOI: 10.3969/j.issn.1001-1749.2018.05.01

64.  Feng, H., Zhang, W.*, Zhang, J., & Chen, X. (2017). Importance of double-pole CFS-PML for broad-band seismic wave simulation and optimal parameters selection. Geophysical Journal International, 209(2), 1148–1167. DOI: 10.1093/gji/ggx070

65.  Han, S., Zhang, W.*, & Zhang, J. (2017). Calculating qP-wave traveltimes in 2-D TTI media by high-order fast sweeping methods with a numerical quartic equation solver. Geophysical Journal International, 210(3), 1560–1569. DOI: 10.1093/gji/ggx236

66.  Sun, Y.-C., Zhang, W., Xu, J.-K., & Chen, X. (2017). Numerical Simulation of 2-D Seismic Wave Propagation in the Presence of a Topographic Fluid–Solid Interface at the Sea Bottom by the Curvilinear Grid Finite-Difference Method. Geophysical Journal International, 210(3), 1721–1738. DOI: 10.1093/gji/ggx257

67.  Tian, X., Zhang, W.*, & Zhang, J. (2017). Cross double-difference inversion for simultaneous velocity model update and microseismic event location. Geophysical Prospecting, 65(S1), 259–273. DOI: 10.1111/1365-2478.12556

68.  Zhang, Z., Zhang, W.*, Chen, X., Li, P., & Fu, C. (2017). Rupture Dynamics and Ground Motion from Potential Earthquakes around Taiyuan, China. Bulletin of the Seismological Society of America, 107(3), 1201–1212. DOI: 10.1785/0120160239

69.  姚佳琪, 曹文忠, 叶泵, & 张伟. (2017). 零相位化和非线性叠加对提取气枪震源地震信号波形的影响研究. 地震研究, 40(4).

70.  李宏, 杨心超, 朱海波, 张伟, & 曲寿利. (2017). 起伏地形条件下瑞雷面波传播特性研究. 石油物探, 56(6), 782–791. DOI: 10.3969/j.issn.l000-1441.2017.06.002

71.  Sun, M., Zhang, J., & Zhang, W. (2017). Alternating first-arrival traveltime tomography and waveform inversion for near-surface imaging. GEOPHYSICS, 82(4), R245–R257. DOI: 10.1190/geo2016-0576.1

72.  Tian, X., Zhang, W.*, & Zhang, J. (2016). Cross double-difference inversion for microseismic event location using data from a single monitoring well. GEOPHYSICS, 81(5), KS183–KS194. DOI: 10.1190/geo2016-0198.1

73.  Wang, N., Shen, Y., Flinders, A., & Zhang, W. (2016). Accurate source location from waves scattered by surface topography: Accurate source location. Journal of Geophysical Research: Solid Earth, 121(6), 4538–4552. DOI: 10.1002/2016JB012814

74.  Sun, Y.-C., Zhang, W., & Chen, X. (2016). Seismic‐Wave Modeling in the Presence of Surface Topography in 2D General Anisotropic Media by a Curvilinear Grid Finite‐Difference Method. Bulletin of the Seismological Society of America, 106(3), 1036–1054. DOI: 10.1785/0120150285

75.  Zhang, Z., Huang, H., Zhang, W., & Chen, X. (2016). On the Free‐Surface Problem in Dynamic‐Rupture Simulation of a Nonplanar Fault. Bulletin of the Seismological Society of America, 106(3), 1162–1175. DOI: 10.1785/0120150246

76.  Zhou, H., Zhang, W.*, & Zhang, J. (2016). Downhole microseismic monitoring for low signal-to-noise ratio events. Journal of Geophysics and Engineering, 13(5), 805–816. DOI: 10.1088/1742-2132/13/5/805

77.  Zhou, L., Zhang, W.*, Shen, Y., Chen, X., & Zhang, J. (2016). Location and moment tensor inversion of small earthquakes using 3D Green’s functions in models with rugged topography: application to the Longmenshan fault zone. Earthquake Science, 29(3), 139–151. DOI: 10.1007/s11589-016-0156-1

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79.  胡景, 钱佳威, 郭浩, 王康东, 翟秋实, 张海江, 姚华建, 张伟, 安美建. (2016). 基于长江安徽段气枪主动源实验庐江台阵的台站对双差地震速度成像. 中国地震, 32(2), 343–355.

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81.  Li, H., Zhang, W.*, Zhang, Z., & Chen, X. (2015). Elastic wave finite-difference simulation using discontinuous curvilinear grid with non-uniform time step: two-dimensional case. Geophysical Journal International, 202(1), 102–118. DOI: 10.1093/gji/ggv129

82.  Chaljub, E., Maufroy, E., Moczo, P., Kristek, J., Hollender, F., Bard, P.-Y., Priolo,E., Klin, P., Martin, F., Zhang, Z., Zhang, W., Chen, X. (2015). 3-D numerical simulations of earthquake ground motion in sedimentary basins: testing accuracy through stringent models. Geophysical Journal International, 201(1), 90–111. DOI: 10.1093/gji/ggu472

83.  Zhang, L., Zhang, W.*, & Zhang, J. (2015). Anisotropic effects on the near surface seismic imaging. Near Surface Geophysics, 13(5), 485–493. DOI: 10.3997/1873-0604.2015035

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85.  Zhang, Z., Zhang, W.*, & Chen, X. (2014a). Complex frequency-shifted multi-axial perfectly matched layer for elastic wave modelling on curvilinear grids. Geophysical Journal International, 198(1), 140–153. DOI: 10.1093/gji/ggu124

86.  Zhang, Z., Zhang, W., & Chen, X. (2014b). Three-dimensional curved grid finite-difference modelling for non-planar rupture dynamics. Geophysical Journal International, 199(2), 860–879. DOI: 10.1093/gji/ggu308

87.  Hu, F., Xu, J., Zhang, Z., Zhang, W., & Chen, X. (2014). Construction of equivalent single planar fault model for strike-slip stepovers. Tectonophysics, 632, 244–249. DOI: 10.1016/j.tecto.2014.06.025

88.  张振国, 张伟, 孙耀充, 朱耿尚, 文健, & 陈晓非. (2014). 2014年2月12日新疆于田地震强地面运动初步模拟及烈度预测. 地球物理学报, 57(2), 685–689. DOI: 10.6038/cjg20140232

89.  张振国, 孙耀充, 徐建宽, 张伟, & 陈晓非. (2014). 2014年8月3日云南鲁甸地震强地面运动初步模拟及烈度预测. 地球物理学报, 57(09), 3038–3041. DOI: 10.6038/cjg20140928

90.  Zhang, Z., Zhang, W.*, Li, H., & Chen, X. (2013). Stable discontinuous grid implementation for collocated-grid finite-difference seismic wave modelling. Geophysical Journal International, 192(3), 1179–1188. DOI: 10.1093/gji/ggs069

91.  Zhu, G., Zhang, Z., Wen, J., Zhang, W., & Chen, X. (2013). Preliminary results of strong ground motion simulation for the Lushan earthquake of 20 April 2013, China. Earthquake Science, 26(3–4), 191–197. DOI: 10.1007/s11589-013-0020-5

92.  张冬丽, 徐锡伟, 张献兵, 柴炽章, & 张伟. (2013). 断层破裂面倾角变化对断陷盆地强地面运动的影响. 地球物理学报, 56(7), 2322–2331. DOI: 10.6038/cjg20130719.  

93.  Zhang, W., Shen, Y., & Zhao, L. (2012). Three-dimensional anisotropic seismic wave modelling in spherical coordinates by a collocated-grid finite-difference method. Geophysical Journal International, 188(3), 1359–1381. DOI: 10.1111/j.1365-246X.2011.05331.x

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95.  Zhang, W., & Shen, Y. (2010). Unsplit complex frequency-shifted PML implementation using auxiliary differential equations for seismic wave modeling. Geophysics, 75(4), T141–T154. DOI: 10.1190/1.3463431

96.  朱德瀚, 张伟, 祝贺君, 罗扬, & 陈晓非. (2010). 利用曲线网格有限差分方法研究三维倾斜断层的破裂动力学. 地震学报, 32(4), 401–411. DOI: 10.3969/j.issn.0253-3782.2010.04.003

97.  张冬丽, 张伟, 徐锡伟, 柴炽章, & 张献兵. (2009). 断层破裂方式对银川盆地强地面运动的影响. 地震工程与工程振动, 29(004), 1–8.

98.  祝贺君, 张伟*, & 陈晓非. (2009). 二维各向异性介质中地震波场的高阶同位网格有限差分模拟. 地球物理学报, 52(6), 1536–1546. DOI: 10.3969/j.issn.0001-5733.2009.06.015

99.  Zhang, W., Shen, Y., & Chen, X. (2008). Numerical simulation of strong ground motion for the M(s)8.0 Wenchuan earthquake of 12 May 2008. Science in China (Series D), 51(12), 1673–1682. DOI: 10.1007/s11430-008-0130-4

100. Zhang, W., & Chen, X. (2006). Traction image method for irregular free surface boundaries in finite difference seismic wave simulation. Geophysical Journal International, 167(1), 337–353. DOI: 10.1111/j.1365-246X.2006.03113.x