Citations Non-affiliated (207) | Affiliated (0)

Non-affiliated authors

• Wen, Yangmao, Cai, Jianfeng, He, Kefeng, Xu, Caijun, (2024), "Dynamic Rupture of the 2021 MW 7.4 Maduo Earthquake: An Intra-Block Event Controlled by Fault Geometry", Journal of Geophysical Research: Solid Earth, 129, 1: pg: e2023JB027247, (DOI: 10.1029/2023JB027247). Cited by:

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• Zhang, Jian, Hu, Yan, Wang, Kai, Yang, Siyuan, (2024), "Rheological Structure and Lithospheric Stress Interaction in the Alaska Subduction Zone Gleaned From the 2018 Mw 7.9 Oceanic Crustal Earthquake", Journal of Geophysical Research: Solid Earth, 129, 1: pg: e2023JB027864, (DOI: 10.1029/2023JB027864). Cited by:

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• Wang, Hu, Luo, Peisheng, Liang, Yi, Li, Dongming, Li, Kaijin, Deng, Lin, Chen, Lichun, (2024), "Asymmetrical Microfracture Density Across an Active Thrust Fault: Evidence from the Longmen Shan Fault, Eastern Tibet", Lithosphere, 2024, 1: pg: lithosphere_2023_193, 01, (DOI: 10.2113/2024/lithosphere_2023_193). Cited by:

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• Li, Zhangjun, Cheng, Feng, Li, Yujiang, Liu, Lei, Zhu, Liangyu, Wang, Yang, Hao, Ming, Zhuang, Wenquan, Xiong, Renwei, Gan, Weijun, (2024), "Lithospheric Rheology and Crustal Deformation Across the Northeastern Tibet and Their Implications for Plateau Growth", Geophysical Research Letters, 51, 2: pg: e2023GL106666, (DOI: 10.1029/2023GL106666). Cited by:

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• Cheng, Guo, Barnhart, William D, Small, David, (2024), "Constraints from GPS measurements on plate-coupling within the Makran Subduction Zone and tsunami scenarios in the Western Indian Ocean", Geophysical Journal International, : pg: ggae046, 02, (DOI: 10.1093/gji/ggae046). Cited by:

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• Ren, Bingquan, Xu, Caijun, Jiang, Guoyan, Yang, Lei, (2024), "Numerical simulations of earthquake rupture induced by pressure perturbation", Geodesy and Geodynamics, : (DOI: 10.1016/j.geog.2024.01.007). Cited by:

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• Liu, Yiqing, Cui, Xin, Hu, Yan, Zhang, Jian, Chen, Yunguo, (2024), "Integrated Investigation on Heterogeneous Lower Crust Rheology in Kyushu and Afterslip Behavior Following the 2016 Mw7.1 Kumamoto Earthquake", Geophysical Research Letters, 51, 7: pg: e2023GL107606, (DOI: 10.1029/2023GL107606). Cited by:

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• Rodriguez Padilla, Alba Mar, (2023), "Earthquake Gates and Off-fault Deformation", UC Davis: . Cited by:

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• Yao, Suli, Yang, Hongfeng, (2023), "Towards ground motion prediction for potential large earthquakes from interseismic locking models", Earth and Planetary Science Letters, 601: pg: 117905, (DOI: 10.1016/j.epsl.2022.117905). Cited by:

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• Kuncoro, Alvina K., Srigutomo, Wahyu, Fauzi, Umar, (2023), "Coseismic Deformation Responses due to Geometrical Structure and Heterogeneity of the Accretionary Wedge: Study Case 2010 Mentawai Earthquake, West Sumatra, Indonesia", International Journal of Geophysics, Hindawi, 2023: pg: 550726, Jan, (DOI: 10.1155/2023/5507264). Cited by:

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• Lee, Sungho, Woo, Jeong-Ung, Rhie, Junkee, (2023), "Classification of transient triggering mechanisms of aftershocks in the postseismic phase of the 2017 Pohang earthquake, South Korea", Geophysical Journal International, : 02, (DOI: 10.1093/gji/ggad022). Cited by:

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• Shreedharan, Srisharan, Saffer, Demian, Wallace, Laura M., Williams, Charles, (2023), "Ultralow frictional healing explains recurring slow slip events", Science, 379, 6633: pg: 712-717, (DOI: 10.1126/science.adf4930). Cited by:

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• J.M. Nevitt, B.A. Brooks, J.L. Hardebeck, Brad Aagaard, (2023), "2019 M7.1 Ridgecrest earthquake slip distribution controlled by fault geometry inherited from Independence dike swarm", Nature Communications, 14, 1: (DOI: 10.1038/s41467-023-36840-2). Cited by:

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• Zhai, Peng, Li, Feng, Huang, Jinshui, (2023), "Influences of across-strike heterogeneous viscosity on the earthquake cycle in a three-dimensional strike-slip fault model", Earthquake Research Advances, : pg: 100218, (DOI: 10.1016/j.eqrea.2023.100218). Cited by:

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• Silva, Josimar A., Saló-Salgado, Lluís, Patterson, Joseph, Dasari, Ganeswara R., Juanes, Ruben, (2023), "Assessing the viability of CO2 storage in offshore formations of the Gulf of Mexico at a scale relevant for climate-change mitigation", International Journal of Greenhouse Gas Control, 126: pg: 103884, (DOI: 10.1016/j.ijggc.2023.103884). Cited by:

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• He, Bing, Wei, XiaoZhuo, Wei, Meng, Shen, Yang, Alvarez, Marco, Schwartz, Susan Y., (2023), "A shallow slow slip event in 2018 in the Semidi segment of the Alaska subduction zone detected by machine learning", Earth and Planetary Science Letters, 612: pg: 118154, (DOI: 10.1016/j.epsl.2023.118154). Cited by:

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• Muramoto, Tomoya, Ito, Yoshihiro, Miyakawa, Ayumu, Furuichi, Noriyuki, (2023), "Strain and Stress Accumulation in Viscoelastic Splay Fault and Subducting Oceanic Crust", Geophysical Research Letters, 50, 11: pg: e2023GL103496, (DOI: 10.1029/2023GL103496). Cited by:

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• Liu, Qifang, (2023), "Long-Period Ground Motion Simulation of the 2008 Mw7.9 Wenchuan Earthquake Considering the Western Sichuan Basin", Iranian Journal of Science and Technology, Transactions of Civil Engineering, : 2364-1843, (DOI: 10.1007/s40996-023-01141-7). Cited by:

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• Cárdenas, Diego R., Montalva, Gonzalo A., (2023), "Numerical Modelling of Kinematic Megathrust Rupture for Seismic Hazard Assessment in the Near-Source Regions", Geo-Risk 2023, : pg: 214-222, (DOI: 10.1061/9780784484968.023). Cited by:

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• Chan, Yuk Po Bowie, Yao, Suli, Yang, Hongfeng, (2023), "Impact of hypocentre location on rupture extent and ground motion: A case study of southern Cascadia", Journal of Geophysical Research: Solid Earth, 128, 8: pg: e2023JB026371, (DOI: 10.1029/2023JB026371). Cited by:

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• Zhang, Jian, Hu, Yan, Zhao, Bin, Chen, Yunguo, (2023), "Weakness of the Indian Lower Crust Beneath the Himalaya Inferred From Postseismic Deformation of the 2015 Mw 7.8 Gorkha Earthquake", Journal of Geophysical Research: Solid Earth, 128, 11: pg: e2023JB027119, (DOI: 10.1029/2023JB027119). Cited by:

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• Hormazábal, Joaquín, Moreno, Marcos, Ortega-Culaciati, Francisco, Báez, Juan Carlos, Peña, Carlos, Sippl, Christian, González-Vidal, Diego, Ruiz, Javier, Metzger, Sabrina, Yoshioka, Shoichi, (2023), "Fast relocking and afterslip-seismicity evolution following the 2015 Mw 8.3 Illapel earthquake in Chile", Scientific Reports, 13, 1: pg: 19511, Nov, (DOI: 10.1038/s41598-023-45369-9). Cited by:

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• Lee, Sungho, Choi, Eunseo, Scholz, Christopher H., (2023), "Do Subducted Seamounts Act as Weak Asperities?", Journal of Geophysical Research: Solid Earth, 128, 11: pg: e2023JB027551, (DOI: 10.1029/2023JB027551). Cited by:

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• Zhang, Kanghua, Zhou, Yishuo, Liu, Yimin, Wang, Pu, (2022), "Mechanism for seismic supershear dynamic rupture based on in-situ stress: a case study of the Palu earthquake in 2018", Geomatics, Natural Hazards and Risk, Taylor & Francis, 13, 1: pg: 1987-2005, (DOI: 10.1080/19475705.2022.2104659). Cited by:

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• Yılmaz, Zeynep, Konca, Ali Özgün, Ergintav, Semih, (2022), "The effect of the 3-D Structure on Strain Accumulation and the Interseismic Behavior along the North Anatolian Fault in the Sea of Marmara", Journal of Geophysical Research: Solid Earth, 127, 3: pg: e2021JB022838, (DOI: 10.1029/2021JB022838). Cited by:

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• Meguerdijian, Saro, Pawar, Rajesh J., Harp, Dylan R., Jha, Birendra, (2022), "Thermal and solubility effects on fault leakage during geologic carbon storage", International Journal of Greenhouse Gas Control, 116: pg: 103633, (DOI: 10.1016/j.ijggc.2022.103633). Cited by:

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• He, Kefeng, Xu, Caijun, Wen, Yangmao, (2022), "Coseismic and early postseismic deformations due to the 2019 earthquake sequence in Ridgecrest, California", Geophysical Journal International, 230, 2: pg: 957-975, 03, (DOI: 10.1093/gji/ggac103). Cited by:

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• Yao, Dongdong, Huang, Yihe, Xue, Liang, Fu, Yuning, Gronewold, Andrew, Fox, Jeffrey L., (2022), "Seismicity around Southern Lake Erie during 2013–2020 in Relation to Lake Water Level", Seismological Research Letters, 93, 4: pg: 2268-2280, 05, (DOI: 10.1785/0220210343). Cited by:

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• Zhu, Yage, Diao, Faqi, Wang, Rongjiang, Hao, Ming, Shao, Zhigang, Xiong, Xiong, (2022), "Crustal Shortening and Rheological Behavior Across the Longmen Shan Fault, Eastern Margin of the Tibetan Plateau", Geophysical Research Letters, 49, 11: pg: e2022GL098814, (DOI: 10.1029/2022GL098814). Cited by:

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• Li, Shaoyang, Chen, Ling, (2022), "Elastic Slab in Viscoelastic Mantle: Effects on Determining Megathrust Slip and Mantle Viscosity during Postseismic and Interseismic Phases", Journal of Geophysical Research: Solid Earth, 127, 8: pg: e2022JB024730, (DOI: 10.1029/2022JB024730). Cited by:

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• Chen, Yunguo, Hu, Yan, Qian, Liang, Meng, Guojie, (2022), "Early postseismic deformation of the 2010 Mw 6.9 Yushu earthquake and its implication for lithospheric rheological properties", Geophysical Research Letters, 49, 15: pg: e2022GL098942, (DOI: 10.1029/2022GL098942). Cited by:

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• Hearn, Elizabeth, (2022), "“Ghost Transient” Corrections to the Southern California GPS Velocity Field from San Andreas Fault Seismic Cycle Models", Seismological Research Letters, 93, 6: pg: 2973-2989, 08, (DOI: 10.1785/0220220156). Cited by:

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• Pang, Yajin, (2022), "Stress evolution on major faults in Tien Shan and implications for seismic hazard", Journal of Geodynamics, 153-154: pg: 101939, (DOI: 10.1016/j.jog.2022.101939). Cited by:

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• Cheng, Guo, Barnhart, William D., Li, Shaoyang, (2022), "Power-law Viscoelastic Flow of the Lower Accretionary Prism in the Makran Subduction Zone Following the 2013 Baluchistan Earthquake", Journal of Geophysical Research: Solid Earth, 127, 11: pg: e2022JB024493, (DOI: 10.1029/2022JB024493). Cited by:

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• Blanco-Martín, Laura, Jahangir, Emad, Rinaldi, Antonio P., Rutqvist, Jonny, (2022), "Evaluation of possible reactivation of undetected faults during CO2 injection", International Journal of Greenhouse Gas Control, 121: pg: 103794, (DOI: 10.1016/j.ijggc.2022.103794). Cited by:

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• Zhao, X., Jha, B., (2021), "A new coupled multiphase flow-finite strain deformation-fault slip framework for induced seismicity", Journal of Computational Physics, 433: pg: 110178, . Cited by:

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• Xue, L., Fu, Y., Martens, H. R., (2021), "Seasonal hydrological loading in the Great Lakes region detected by GNSS: A comparison with hydrological models", Geophysical Journal International, : (DOI: 10.1093/gji/ggab158). Cited by:

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• Tiwari, D. K., Jha, B., Kundu, B., Gahalaut, V. K., Vissa, N. K., (2021), "Groundwater extraction-induced seismicity around Delhi region, India", Scientific Reports, 11, 1: pg: 10097, (DOI: 10.1038/s41598-021-89527-3). Cited by:

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• Silva, J. A., Byrne, H., Plesch, A., Shaw, J. H., Juanes, R., (2021), "Revisiting the Classical Experiment in Earthquake Control at the Rangely Oil Field, Colorado, 1970, Using a Coupled Flow and Geomechanical Model", Bulletin of the Seismological Society of America, : (DOI: 10.1785/0120210020). Cited by:

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• Schwartzkopff, A. K., Sainoki, A., Elsworth, D., (2021), "Numerical simulation of mixed aseismic/seismic fault-slip induced by fluid injection using coupled X-FEM analysis", International Journal of Rock Mechanics and Mining Sciences, 147: pg: 104871, . Cited by:

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• Prasidya, A. S., Panuntun, H., Taftazani, M. I., (2021), "Spherical-earth finite element model of coseismic slip distribution during the 2010 Mentawai earthquake", Geodesy and Geodynamics, : . Cited by:

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• Marchandon, M., Hollingsworth, J., Radiguet, M., (2021), "Origin of the shallow slip deficit on a strike slip fault: Influence of elastic structure, topography, data coverage, and noise", Earth and Planetary Science Letters, 554: pg: 116696, . Cited by:

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• Li, S., Tao, T., Chen, Y., He, P., Gao, F., Qu, X., Zhu, Y., (2021), "Geodetic observation and modeling of the coseismic and postseismic deformations associated with the 2020 Mw 6.5 Monte Cristo earthquake", Earth and Space Science, n/a, n/a: pg: 2021, . Cited by:

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• Jones, J. Robert, (2021), "Investigating volcano-tectonic interactions in a youthful rift segment of the East African Rift System", Virginia Polytechnic and State University, Blacksburg, Virgina: . Cited by:

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• I. Antoncecchi, F. Ciccone, (2021), "Soil deformation analysis through fluid-dynamic modelling and DInSAR measurements: a focus on groundwater withdrawal in the Ravenna area (Italy)", Bolletino di Geofisica Teorica e Applicata, 62, 2: pg: 301--318, . Cited by:

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• Hu, Z., Hu, Y., Bodunde, S. S., (2021), "Viscoelastic Relaxation of the Upper Mantle and Afterslip Following the 2014 MW8.1 Iquique Earthquake", Earthquake Research Advances, : pg: 100002, . Cited by:

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• Hager, B. H., Dieterich, J., Frohlich, C., Juanes, R., Mantica, S., Shaw, J. H., Bottazzi, F., Caresani, F., Castineira, D., Cominelli, A., Meda, M., Osculati, L., Petroselli, S., Plesch, A., (2021), "A process-based approach to understanding and managing triggered seismicity", Nature, 595, 7869: pg: 684--689, (DOI: 10.1038/s41586-021-03668-z). Cited by:

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• Fadugba, O. I., Langston, C. (2021), "Waveform and Geodynamic Modeling of Seismicity Associated with the Charlevoix Seismic Zone", The University of Memphis, Ann Arbor: 9798534693522, . Cited by:

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• Diao, F., Wang, R., Xiong, X., Liu, C., (2021), "Overlapped postseismic deformation caused by afterslip and viscoelastic relaxation following the 2015 Mw 7.8 Gorkha (Nepal) earthquake", Journal of Geophysical Research: Solid Earth, n/a, n/a: pg: 2020, . Cited by:

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• Chen, X., Yang, H., Jin, M., (2021), "Inferring Critical Slip-Weakening Distance from Near-Fault Accelerogram of the 2014 Mw~6.2 Ludian Earthquake", Seismological Research Letters, : (DOI: 10.1785/0220210089). Cited by:

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• Dana, S., Jha, B., (2021), "Towards a poroelastodynamics framework for induced earthquakes: effect of pore pressure on fault mechanics", 20, 3: pg: 81--98, 1940-4352, (DOI: 10.1615/IntJMultCompEng.2021041646). Cited by:

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• Diao, Faqi, Wang, Rongjiang, Zhu, Yage, Xiong, Xiong, (2021), "Revisiting the Fault Locking of the Central Himalayan Thrust with a Viscoelastic Earthquake‐Cycle Deformation Model", Seismological Research Letters, : 10, (DOI: 10.1785/0220200310). Cited by:

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• Liu, Lei, Li, Yujiang, Ji, Lingyun, Zhu, Liangyu, (2021), "Finite element simulation of stress change for the Ms7.4 Maduo earthquake and implications for regional seismic hazards", Earthquake Research Advances, : pg: 100046, (DOI: 10.1016/j.eqrea.2021.100046). Cited by:

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• Li, Feng, Zhai, Peng, Huang, Jinshui, Tan, Hongbo, (2021), "Influences of the heterogeneity of viscoelastic medium on postseismic deformation of the 2008 MW7.9 Wenchuan earthquake", Geodesy and Geodynamics, : (DOI: 10.1016/j.geog.2021.08.006). Cited by:

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• Yao, Suli, Yang, Hongfeng, (2021), "Hypocentral dependent shallow slip distribution and rupture extents along a strike-slip fault", Earth and Planetary Science Letters, : pg: 117296, (DOI: 10.1016/j.epsl.2021.117296). Cited by:

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• Rodriguez Padilla, Alba M., Oskin, Michael E., Rockwell, Thomas K., Delusina, Irina, Singleton, Drake M., (2021), "Joint earthquake ruptures of the San Andreas and San Jacinto faults, California, USA", Geology, : 12, (DOI: 10.1130/G49415.1). Cited by:

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• Hong, Tae-Kyung, Lee, Junhyung, Park, Seongjun, Kim, Woohan, (2021), "Major influencing factors for the nucleation of the 15 November 2017 Mw 5.5 Pohang earthquake", Physics of the Earth and Planetary Interiors, : pg: 106833, (DOI: 10.1016/j.pepi.2021.106833). Cited by:

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• Saxena, Arushi, (2020), "Investigating Intraplate Seismicity in the Central and Eastern US: Linking Observations and Numerical Models", : The University of Memphis, ProQuest Dissertations Publishing, . Cited by:

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• Xue, L., Johnson, C. W., Fu, Y., Burgmann, R., (2020), "Seasonal seismicity in the Western Branch of the East African Rift System", Geophysical Research Letters, : (DOI: 10.1029/2019GL085882). Cited by:

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• Shi, F., Li, S., Moreno, M., (2020), "Megathrust Locking and Viscous Mantle Flow Induce Continental Shortening in Central Andes", Pure and Applied Geophysics, : (DOI: 10.1007/s00024-019-02403-0). Cited by:

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• Rippke, Joseph, (2020), "Forearc Stresses in the Northern Cascadia Subduction Zone", University of Minnesota: . Cited by:

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• Ragon, T., Simons, M., (2020), "Accounting for uncertain 3-D elastic structure in fault slip estimates", Geophysical Journal International, 224, 2: pg: 1404--1421, (DOI: 10.1093/gji/ggaa526). Cited by:

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• Oliva, Sarah Jaye, (2020), "Capturing Rifting and Magmatic Processes by Investigating State-Of-Stress Via Seismic Moment Tensors and Numerical Stress Models", ProQuest Dissertations Publishing, Tulane University School of Science and Engineering, 28088096: . Cited by:

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• Li, S., Fukuda, J. Oncken, (2020), "Geodetic evidence of time-dependent viscoelastic interseismic deformation driven by megathrust locking in the southwest Japan subduction zone", Geophysical Research Letters, : (DOI: 10.1029/2019GL085551). Cited by:

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• Hwang, L. J., Pauloo, R. A., Carlen, J., (2020), "Assessing the Impact of Outreach Through Software Citation for Community Software in Geodynamics", Computing in Science & Engineering, 22, 1: pg: 16--25, (DOI: 10.1109/MCSE.2019.2940221). Cited by:

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• Huang, K., Hu, Y., Freymueller, J. T., (2020), "Decadal Viscoelastic Postseismic Deformation of the 1964 Mw9.2 Alaska Earthquake", Journal of Geophysical Research: Solid Earth, 521, 9: pg: e2020JB019649, (DOI: 10.1029/2020JB019649). Cited by:

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• Han, Z., Ren, G., Younis, R., (2020), "Coupled Forward Simulation of Seismicity: a Stick-Slip Model for Fractures and Transient Geomechanics", European Association of Geoscientists & Engineers, 2020, 1: pg: 1--21, . Cited by:

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• Dorsett, Jacob H., (2020), "Early Ridgecrest Postseismic Deformation Reveals Viscoelastic Flow in Weak Uppermost Mantle in Southern California", ProQuest Dissertations Publishing, Indiana University: . Cited by:

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• Chen, Y., Ding, K., Wang, Q., He, P., Li, S., Qiao, X., (2020), "A refined slip distribution of the 2013 Mw 6.7 Lushan, China earthquake constrained by GPS and leveling data", Geophysical Journal International, : (DOI: 10.1093/gji/ggaa202). Cited by:

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• Bartlow, N. M., (2020), "A long-term view of Episodic Tremor and Slip in Cascadia", Geophysical Research Letters, : (DOI: 10.1029/2019GL085303). Cited by:

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• Silva Junior, Josimar, (2020), "Multiphase flow and fault poromechanics: understanding earthquake triggering and seismic hazard", Massachusetts Institute of Technology: . Cited by:

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• Byrne, H., Silva, J. A., Plesch, A., Juanes, R., Shaw, J. H., (2020), "The Groundbreaking Experiment in Earthquake Control at Rangely, Colorado revisited", Geophysical Research Letters, 47, 11: pg: 2020, (DOI: 10.1029/2020GL088257). Cited by:

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• Yao, S., Yang, H., (2020), "Rupture Dynamics of the 2012 Nicoya Mw7.6 Earthquake: Evidence for Low Strength on the Megathrust", Geophysical Research Letters, 47, 13: pg: e2020GL087508, (DOI: 10.1029/2020GL087508). Cited by:

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• Zhao, X., Jha, B., (2019), "Role of Well Operations and Multiphase Geomechanics in Controlling Fault Stability During CO2 Storage and Enhanced Oil Recovery", Journal of Geophysical Research: Solid Earth, 124, 7: pg: 6359--6375, (DOI: 10.1029/2019JB017298). Cited by:

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• Yohler, R., Bartlow, N., Wallace, L. M., Williams, C., (2019), "Time-Dependent Behavior of a Near Trench Slow Slip Event at the Hikurangi Subduction Zone", Geochemistry, Geophysics, Geosystems, 20: pg: 4292--4304, (DOI: 10.1029/2019GC008229). Cited by:

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• Ye, R., Kumar, K., Hoop, M. V., Campillo, M., (2019), "A multi-rate iterative coupling scheme for simulating dynamic ruptures and seismic waves generation in the prestressed earth", Journal of Computational Physics, : pg: 109098, (DOI: 10.1016/j.jcp.2019.109098). Cited by:

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• Yang, H., Yao, S., He, B., Newman, A. V., (2019), "Earthquake rupture dependence on hypocentral location along the Nicoya Peninsula subduction megathrust", Earth and Planetary Science Letters, 520: pg: 10--17, (DOI: 10.1016/j.epsl.2019.05.030). Cited by:

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• Materna, K., Bartlow, N., Wech, A., Williams, C., Burgmann, R., (2019), "Dynamically Triggered Changes of Plate Interface Coupling in Southern Cascadia", Geophysical Research Letters, 46, 22: pg: 12890--12899, (DOI: 10.1029/2019GL084395). Cited by:

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• Gunawan, E., Widiyantoro, S., Zulfakriza, Meilano, I., Pratama, C., (2019), "Postseismic deformation following the 2 July 2013 M 6.1 Aceh, Indonesia, earthquake estimated using GPS data", Journal of Asian Earth Sciences, 177: pg: 146--151, (DOI: 10.1016/j.jseaes.2019.03.020). Cited by:

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• Gelder, G., Fernandez-Blanco, D., Melnick, D., Duclaux, G., Bell, R. E., Jara-Munoz, J., Armijo, R., Lacassin, R., (2019), "Lithospheric flexure and rheology determined by climate cycle markers in the Corinth Rift", Scientific Reports, 9, 1: (DOI: 10.1038/s41598-018-36377-1). Cited by:

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• Benvenuti, E., Maurillo, G., (2019), "Finite Element Modelling of Coupled Fluid-Flow and Geomechanical Aspects for the Sustainable Exploitation of Reservoirs: The Case Study of the Cavone Reservoir", Geosciences, 9, 5: pg: 213, (DOI: 10.3390/geosciences9050213). Cited by:

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• Yang, H., Yao, S., He, B., Newman, A., Weng, H., (2019), "Deriving rupture scenarios from interseismic locking distributions along the subduction megathrust", Journal of Geophysical Research: Solid Earth, 124, 10: pg: 10376-10392, (DOI: 10.1029/2019JB017541). Cited by:

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• Williams, C. A., Wallace, L. M., (2018), "The Impact of Realistic Elastic Properties on Inversions of Shallow Subduction Interface Slow Slip Events Using Seafloor Geodetic Data", Geophysical Research Letters, ja: (DOI: 10.1029/2018GL078042). Cited by:

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• Watanabe, S. -i, Bock, Y., Melgar, D., Tadokoro, K., (2018), "Tsunami scenarios based on interseismic models along the Nankai Trough, Japan from seafloor and onshore geodesy", Journal of Geophysical Research: Solid Earth, Wiley-Blackwell: (DOI: 10.1002/2017jb014799). Cited by:

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• Weng, H., Yang, H., (2018), "Constraining frictional properties on fault by dynamic rupture simulations and near-field observations", Journal of Geophysical Research: Solid Earth, ja: (DOI: 10.1029/2017JB015414). Cited by:

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• Todd, E. K., Schwartz, S. Y., Mochizuki, K., Wallace, L. M., Sheehan, A. F., Webb, S. C., Williams, C. A., Nakai, J., Yarce, J., Fry, B., Henrys, S., Ito, Y., (2018), "Earthquakes and Tremor Linked to Seamount Subduction During Shallow Slow Slip at the Hikurangi Margin, New Zealand", Journal of Geophysical Research: Solid Earth, 123, 8: pg: 6769--6783, (DOI: 10.1029/2018JB016136). Cited by:

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• Li, S., Bedford, J., Moreno, M., Barnhart, W. D., Rosenau, M., Oncken, O., (2018), "Spatiotemporal variation of mantle viscosity and the presence of cratonic mantle inferred from eight years of postseismic deformation following the 2010 Maule Chile earthquake", Geochemistry, Geophysics, Geosystems, 19, 9: pg: 3272--3285, (DOI: 10.1029/2018GC007645). Cited by:

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• Zha, Y., Webb, S. C., Nooner, S. L., Crawford, W. C., (2014), "Spatial distribution and temporal evolution of crustal melt distribution beneath the East Pacific Rise at 9-10 N inferred from 3-D seafloor compliance modeling: Crustal melt distribution at EPR 9-10 N", Journal of Geophysical Research: Solid Earth, 119, 6: pg: 4517--4537, (DOI: 10.1002/2014JB011131). Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2014), "PyLith v2.0.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Zha, X., Dai, Z., (2013), "Constraints on the seismogenic faults of the 2003-2004 Delingha earthquakes by InSAR and modeling", Journal of Asian Earth Sciences, 75: pg: 19--25, (DOI: 10.1016/j.jseaes.2013.06.013). Cited by:

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• Martens, H. R., White, R. S., (2013), "Triggering of microearthquakes in Iceland by volatiles released from a dyke intrusion", Geophysical Journal International, 194, 3: pg: 1738--1754, (DOI: 10.1093/gji/ggt184). Cited by:

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• Bonaccorso, A., Currenti, G., Del Negro, C., (2013), "Interaction of volcano-tectonic fault with magma storage, intrusion and flank instability: A thirty years study at Mt. Etna volcano", Journal of Volcanology and Geothermal Research, 251: pg: 127--136, (DOI: 10.1016/j.jvolgeores.2012.06.002). Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2012), "PyLith v1.7.1 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Taylor, B., Weiss, J. R., Goodliffe, A. M., Sachpazi, M., Laigle, M., Hirn, A., (2011), "The structures, stratigraphy and evolution of the Gulf of Corinth rift, Greece", Geophysical Journal International, 185, 3: pg: 1189--1219, (DOI: 10.1111/j.1365-246X.2011.05014.x). Cited by:

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• Moussatat, N., Chaljub, E., Baillet, L., (2011), "Different Fault Implementation for Earthquake Dynamic-Rupture modeling", 10e colloque national en calcul des structures, Giens, France: . Cited by:

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• Hsu, Y-J, Simons, M., Williams, C., Casarotti, E., (2011), "Three-dimensional FEM derived elastic Green's functions for the coseismic deformation of the 2005 Mw 8.7 Nias-Simeulue, Sumatra earthquake", Geochemistry, Geophysics, Geosystems, 12, 7: pg: Q07013, (DOI: 10.1029/2011GC003553). Cited by:

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• Currenti, G., Napoli, R., Del Negro, C., (2011), "Toward a realistic deformation model of the 2008 magmatic intrusion at Etna from combined DInSAR and GPS observations", Earth and Planetary Science Letters, 312, 1-2: pg: 22--27, (DOI: 10.1016/j.epsl.2011.09.058). Cited by:

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• Choi, E., Seeber, L., Steckler, M. S., Buck, R., (2011), "One-sided transform basins and "inverted curtains": Implications for releasing bends along strike-slip faults", Tectonics, 30, 6: pg: TC6006, (DOI: 10.1029/2011TC002943). Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2011), "PyLith v1.6.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2011), "PyLith v1.6.1 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2011), "PyLith v1.6.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2011), "PyLith v1.5.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Li, F., Huang, J., (2010), "Three-dimensional numerical simulation on the coseismic deformation of the 2008 M S8.0 Wenchuan earthquake in China", Earthquake Science, 23, 2: pg: 191--200, (DOI: 10.1007/s11589-009-0091-5). Cited by:

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• Heckman, V. M., Kohler, M. D., Heaton, T. H., (2010), "Detecting failure events in buildings: A numeric and experimental analysis", 9th And 10th US National And 10th Canadian Conference On Earthquake Engineering, : . Cited by:

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• Currenti, G., Bonaccorso, A., Del Negro, C., Guglielmino, F., Scandura, D., Boschi, E., (2010), "FEM-based inversion for heterogeneous fault mechanisms: application at Etna volcano by DInSAR data: FEM-based inversion for fault mechanisms", Geophysical Journal International, 183, 2: pg: 765--773, (DOI: 10.1111/j.1365-246X.2010.04769.x). Cited by:

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• Ali, S. T., Freed, A. M., (2010), "Contemporary deformation and stressing rates in Southern Alaska: Deformation and stressing rates in S. Alaska", Geophysical Journal International, 183, 2: pg: 557--571, (DOI: 10.1111/j.1365-246X.2010.04784.x). Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2010), "PyLith v1.5.1 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2010), "PyLith v1.5.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2010), "PyLith v1.4.3 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Nooner, S. L., Chadwick Jr., W. W., (2009), "Volcanic inflation measured in the caldera of Axial Seamount: Implications for magma supply and future eruptions", Geochemistry, Geophysics, Geosystems, 10, 2: pg: Q02002, (DOI: 10.1029/2008GC002315). Cited by:

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• Nooner, S. L., Bennati, L., Calais, E., Buck, W. R., Hamling, I. J., Wright, T. J., Lewi, E., (2009), "Post-rifting relaxation in the Afar region, Ethiopia", Geophysical Research Letters, 36, 21: pg: L21308, (DOI: 10.1029/2009GL040502). Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2009), "PyLith v1.4.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2009), "PyLith v1.4.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Dubois, L., Feigl, K. L., Komatitsch, D., Arnadottir, T., Sigmundsson, F., (2008), "Three-dimensional mechanical models for the June 2000 earthquake sequence in the south Iceland seismic zone", Tectonophysics, 457, 1-2: pg: 12--29, (DOI: 10.1016/j.tecto.2008.05.020). Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2008), "PyLith v1.3.1 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2008), "PyLith v1.3.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2008), "PyLith v1.2.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2008), "PyLith v1.1.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2008), "PyLith v1.1.1 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2008), "PyLith v1.1.0 [software]", : . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2007), "PyLith v1.0.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2007), "PyLith v1.0.1 [software]", : . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2007), "PyLith v1.0.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2007), "PyLith v0.8.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2006), "PyLith v0.8.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Aagard, Brad, Williams, Charles, Knepley, Matthew, (2006), "PyLith v0.8.1 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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