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112

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  • 外部: 110

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年访问量

1896

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总访问量

7528

  • 内部: 75

  • 外部: 7453

  • 国内: 7288

  • 国外: 240

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访问量
1. GPU implementation of curved-grid finite-difference modelling for .. [260]
2. Dynamic rupture process of the 2017 Mw6.5 Jiuzhaigou earthquake ba.. [241]
3. 3D crustal shear velocity structure of China Northeast constrained.. [238]
4. 城市微动高阶面波在浅层勘探中的应用:以苏州河地区为例 [214]
5. CC-FJpy: A Python Package for Extracting Overtone Surface-Wave Dis.. [187]
6. Shear Velocity Inversion Using Multimodal Dispersion Curves From A.. [183]
7. 基于矢量波数变换法(VWTM)的多道Rayleigh波分析方法 [178]
8. An overset-grid finite-difference algorithm for simulating elastic.. [170]
9. Resolving Surface Displacements in Shenzhen of China from Time Ser.. [169]
10. Application of high-order surface waves in shallow exploration : A.. [169]
11. Evanescent EM waves generated by seismoelectric conversion at an i.. [166]
12. Ground motion signatures of supershear ruptures in the Burridge-An.. [164]
13. An effective polarity correction method for microseismic migration.. [164]
14. The effects of sediments on supershear rupture [164]
15. 基于频率-贝塞尔变换法的关东盆地S波速度成像 [162]
16. Semi-analytical solutions of seismo-electromagnetic signals arisin.. [160]
17. A hybrid source mechanism of the 2017 Mw 6.5 Jiuzhaigou earthquake.. [159]
18. 背景噪音提取高阶频散曲线的矢量波数变换方法 [158]
19. 18.9-Pflops Nonlinear Earthquake Simulation on Sunway TaihuLight: .. [155]
20. A Dynamic-Rupture Model of the 2019 Mw 7.1 Ridgecrest Earthquake .. [155]
21. Pressure dependence of elastic wave velocities of unconsolidated c.. [155]
22. An Effective Method to Extract Overtones of Surface Wave From Arra.. [154]
23. 2-D poroelastic wave modelling with a topographic free surface by .. [153]
24. Theoretical modelling of seismic dispersion, attenuation and frequ.. [152]
25. 频率-贝塞尔变换方法在巢湖滩涂浅层勘探上的应用 [151]
26. Sensitivity analysis of dispersion curves of Rayleigh waves with f.. [150]
27. An Adaptive Modal Discontinuous Galerkin Finite Element Parallel M.. [147]
28. Frequency-Bessel Transform Method for Effective Imaging of Higher-.. [145]
29. 曲线网格有限差分方法在adjoint波形反演中的应用 [145]
30. The Near-Fault Ground Motion Characteristics of Sustained and Unsu.. [145]
31. Electromagnetic responses to an earthquake source due to the motio.. [144]
32. Effect of the time-weakening friction law during the nucleation pr.. [142]
33. Importance of Spatial Resolution in Ground Motion Simulations With.. [141]
34. 网格分辨率对带三维盆地结构的强震模拟的影响:以1976年唐山大地震为例 [141]
35. Seismoelectric and Electroseismic Modeling in Stratified Porous Me.. [141]
36. DisperNet: An Effective Method of Extracting and Classifying the D.. [141]
37. 矢量波数方法(VWTM)在多道主动源面波分析中的应用 [139]
38. Dynamic Rupture Simulations of the 2008 Mw 7.9 Wenchuan Earthquake.. [138]
39. Subducting slabs, Hainan plume and intraplate volcanism in SE Asia.. [137]
40. An Improved Method for Computing Broadband Green's Functions of Su.. [136]
41. 极坐标系有限差分中起伏地表边界条件处理 [135]
42. Refining higher modes of Rayleigh waves using seismoelectric signa.. [135]
43. Improved High-Resolution 3D Vs Model of Long Beach, CA: Inversion .. [134]
44. Importance of double-pole CFS-PML for broad-band seismic wave simu.. [133]
45. Dynamic Rupture Simulations of the 1920 M-s 8.5 Haiyuan Earthquake.. [133]
46. 3D Seismic Wavefield Modeling in Generally Anisotropic Media with .. [130]
47. Finite-Difference Modeling and Characteristics Analysis of Love Wa.. [130]
48. Simulating the wenchuan earthquake with accurate surface topograph.. [129]
49. Minimum semblance weighted stacking with polarity correction for s.. [128]
50. Numerical simulations to explain the coseismic electromagnetic sig.. [128]
51. Electromagnetic Simulation by Curvilinear Collocated Grid Finite D.. [128]
52. Investigation of topographical effects on rupture dynamics and res.. [127]
53. Numerical simulation of 2-D seismic wave propagation in the presen.. [127]
54. Quantitative Understanding on the Amplitude Decay Characteristic o.. [126]
55. Extreme‑scale earthquake simulations on Sunway TaihuLight [126]
56. Phase unmixing of TerraSAR-X staring spotlight interferograms in b.. [126]
57. A fast and robust two-point ray tracing method in layered media wi.. [125]
58. A Suite of Exercises for Verifying Dynamic Earthquake Rupture Code.. [125]
59. Convolutional Neural Network, Res-Unet++, -Based Dispersion Curve .. [125]
60. Investigation on the Dynamic Rupture of the 1970 M-s 7.7 Tonghai, .. [124]
61. The relations between the corner frequency, seismic moment and sou.. [124]
62. Constraints on Crustal P Wave Structure With Leaking Mode Dispersi.. [124]
63. Multiple Leaking Mode Dispersion Observations and Applications Fro.. [123]
64. Modern inversion workflow of the multimodal surface wave dispersio.. [123]
65. Establishment of a seismic topographic effect prediction model in .. [122]
66. Extraction of Multimodal Dispersion Curves From Ambient Noise With.. [122]
67. Imaging the Ice Sheet and Uppermost Crustal Structures with a Dens.. [122]
68. Crustal S-Wave Velocity Structure Beneath the Northwestern Bohemia.. [122]
69. Two-stage broad learning inversion framework for shear-wave veloci.. [121]
70. Dynamic Rupture Simulations Performed on the Northern and Eastern .. [120]
71. 3d seismic-wave modeling with a topographic fluid–solid interface.. [120]
72. 多尺度阵列嵌套组合反演宾川气枪源区横波速度结构 [120]
73. CGFDM3D-EQR: A Platform for Rapid Response to Earthquake Disasters.. [120]
74. Rupture Dynamics and Ground Motion from Potential Earthquakes arou.. [119]
75. An Extremely Shallow M(w)4.1 Thrust Earthquake in the Eastern Sich.. [118]
76. Present-Day Deformation Mechanism of the Northeastern Mina Deflect.. [118]
77. Determining Crustal Attenuation With Seismic T Waves in Southern A.. [118]
78. Seismoelectric responses to an explosive source in a fluid above a.. [116]
79. Observation of a New Long-Period (16-s) Persistent Tremor Originat.. [116]
80. Simulation and Interpretation of Low-Frequency Earthquakes Mechani.. [115]
81. Uniformly asymptotic eigensolutions of the Earth's toroidal modes [114]
82. Discontinuous Galerkin Finite Element Method Using the Modified AD.. [113]
83. A Dynamic Explanation for the Ruptures of Repeating Earthquakes on.. [112]
84. The Sustainability of Free-Surface-Induced Supershear Rupture on S.. [112]
85. Seismic characteristics of supershear and sub-Rayleigh earthquakes.. [111]
86. Accurate computation of leaky modes for anomalous layered models [111]
87. Frontiers in Studies of Earthquakes and Faults: Introduction [110]
88. The slow self-arresting nature of low-frequency earthquakes [109]
89. Removal of Crossed Artifacts from Multimodal Dispersion Curves wit.. [109]
90. Effects of Near-Surface Complexities on Differential Travel Times .. [108]
91. Retrieving S-wave velocity from surface wave multimode dispersion .. [107]
92. Calculation of normal and leaky modes for horizontal stratified mo.. [105]
93. Fine Structure of the Subducting Slab and the 2022 M 7.4 Fukushim.. [105]
94. High Frequency Near-Field Ground Motion Excited by Strike-Slip Ste.. [101]
95. Supershear Rupture, Daughter Cracks, and the Definition of Rupture.. [100]
96. The Effect of Depth-Dependent Stress in Controlling Free-Surface-I.. [99]
97. Measurement of ice flow velocities from GPS positions logged by sh.. [99]
98. Discontinuous curvilinear collocated grid combined with nonuniform.. [97]
99. 地震诱导电磁场现象和基于动电效应的解释 [96]
100. 2022年9月5日泸定M6.8级地震灾害损失快速评估 [92]
下载量
1. Dynamic rupture process of the 2017 Mw6.5 Jiuzhaigou earthquake ba.. [5]
2. Seismoelectric and Electroseismic Modeling in Stratified Porous Me.. [5]
3. 3D crustal shear velocity structure of China Northeast constrained.. [3]
4. Two-stage broad learning inversion framework for shear-wave veloci.. [3]
5. GPU implementation of curved-grid finite-difference modelling for .. [2]
6. An effective polarity correction method for microseismic migration.. [2]
7. Electromagnetic Simulation by Curvilinear Collocated Grid Finite D.. [2]
8. Discontinuous Galerkin Finite Element Method Using the Modified AD.. [2]
9. 震-电联合多物理场探测技术 [2]
10. Resolving Surface Displacements in Shenzhen of China from Time Ser.. [1]
11. Seismic characteristics of supershear and sub-Rayleigh earthquakes.. [1]
12. Rupture Dynamics and Ground Motion from Potential Earthquakes arou.. [1]
13. Accurate computation of leaky modes for anomalous layered models [1]
14. 基于频率-贝塞尔变换法的关东盆地S波速度成像 [1]
15. Importance of Spatial Resolution in Ground Motion Simulations With.. [1]
16. Extreme‑scale earthquake simulations on Sunway TaihuLight [1]
17. Present-Day Deformation Mechanism of the Northeastern Mina Deflect.. [1]
18. Semi-analytical solutions of seismo-electromagnetic signals arisin.. [1]
19. A Dynamic-Rupture Model of the 2019 Mw 7.1 Ridgecrest Earthquake .. [1]
20. The effects of sediments on supershear rupture [1]
21. The Effect of Depth-Dependent Stress in Controlling Free-Surface-I.. [1]
22. CC-FJpy: A Python Package for Extracting Overtone Surface-Wave Dis.. [1]
23. The slow self-arresting nature of low-frequency earthquakes [1]
24. Fine Structure of the Subducting Slab and the 2022 M 7.4 Fukushim.. [1]
25. Joint inversion of two-dimensional magnetotelluric and ambient noi.. [1]
26. Numerical Analysis of Seismoelectric Conversion in Stratified Low-.. [1]
27. 2022年9月5日泸定M6.8级地震灾害损失快速评估 [1]
28. Global seismic tomography reveals remnants of subducted Tethyan oc.. [1]
29. 全球地震层析成像揭示深部地幔特提斯洋俯冲板片残留 [1]
30. Electroseismic Scholte-wave analysis: A potential method for estim.. [1]
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