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Bruhat, L., Segall, P., (2016), "Coupling on the northern Cascadia subduction zone from geodetic measurements and physics-based models", Journal of Geophysical Research: Solid Earth, 121, 11: pg: 8297--8314, (DOI: 10.1002/2016JB013267). Cited by:
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:
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:
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:
Cho, I., Kuwahara, Y., (2013), "Numerical simulation of crustal deformation using a three-dimensional viscoelastic crustal structure model for the Japanese islands under east-west compression", Earth, Planets and Space, Springer, 65, 9: pg: 1041--1046, . Cited by:
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:
BibTex | EndNote|Resources cited:[1][2]
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:
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:
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:
Delgado, F., Pritchard, M., Samsonov, S., Cordova, L., (2018), "Renewed Posteruptive Uplift Following the 2011--2012 Rhyolitic Eruption of Cord'on Caulle (Southern Andes, Chile): Evidence for Transient Episodes of Magma Reservoir Recharge During 2012--2018", Journal of Geophysical Research: Solid Earth, 123, 11: pg: 9407--9429, (DOI: 10.1029/2018JB016240). Cited by:
Dempsey, D., Suckale, J., (2015), "Induced Earthquake Sequences in Geothermal Settings: Data Trends and Modeling Approaches", Proceedings: Fortieth Workshop on Geothermal Reservoir Engineering Stanford University, Stanford, California, January 26, 28: . Cited by:
Diao, F., Wang, R., Wang, Y., Xiong, X., Walter, T. R., (2018), "Fault behavior and lower crustal rheology inferred from the first seven years of postseismic GPS data after the 2008 Wenchuan earthquake", Earth and Planetary Science Letters, 495: pg: 202--212, (DOI: 10.1016/j.epsl.2018.05.020). Cited by:
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:
Diao, F., Xiong, X., Wang, R., Zheng, Y., Walter, T. R., Weng, H., Li, J., (2014), "Overlapping post-seismic deformation processes: afterslip and viscoelastic relaxation following the 2011 Mw 9.0 Tohoku (Japan) earthquake", Geophysical Journal International, 196, 1: pg: 218--229, (DOI: 10.1093/gji/ggt376). Cited by:
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:
Douilly, R., Aochi, H., Calais, E., Freed, A. M., (2015), "Three-dimensional dynamic rupture simulations across interacting faults: The Mw 7.0, 2010, Haiti earthquake", Journal of Geophysical Research: Solid Earth, 120, 2: pg: 1108--1128, (DOI: 10.1002/2014JB011595). Cited by:
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:
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:
Gharti, H. N., Langer, L., Tromp, J., (2018), "Spectral-infinite-element simulations of coseismic and postearthquake deformation", Geophysical Journal International, 216, 2: pg: 1364--1393, (DOI: 10.1093/gji/ggy495). Cited by:
Gomez, D. D., Pinon, D. A., Smalley, R., Bevis, M., Cimbaro, S. R., Lenzano, L. E., Baron, J., (2016), "Reference frame access under the effects of great earthquakes: a least squares collocation approach for non-secular post-seismic evolution", Journal of Geodesy, 90, 3: pg: 263--273, (DOI: 10.1007/s00190-015-0871-8). Cited by:
Gomez, D. D., Smalley, R., Langston, C. A., Pinon, D. A., Cimbaro, S. R., Bevis, M., Kendrick, E., Baron, J., Baez, J. C., Parra, Hector, (2015), "Co-seismic deformation of the 2010 Maule, Chile earthquake: Validating the least squares collocation interpolation method", GeoActa, 40, 1: . Cited by:
Gomez, Demian D., Bevis, M., Pan, E., Smalley, R., (2017), "The influence of gravity on the displacement field produced by fault slip", Geophysical Research Letters, 44, 18: pg: 9321-9329, (DOI: 10.1002/2017GL074113). Cited by:
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:
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:
Haines, A. J., Dimitrova, L. L., Wallace, L. M., Williams, C. A., (2015), "Enhanced Surface Imaging of Crustal Deformation: Obtaining Tectonic Force Fields Using GPS Data", 1-Dimensional Synthetic Examples, Springer International Publishing, Cham: pg: 45--62, 978-3-319-21578-5, (DOI: 10.1007/978-3-319-21578-5_4). Cited by:
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:
Harris, R. A., Barall, M., Aagaard, B., Ma, S., Roten, D., Olsen, K., Duan, B., Liu, D., Luo, B., Bai, K., Ampuero, J-P, Kaneko, Y., Gabriel, A-A, Duru, K., Ulrich, T., Wollherr, S., Shi, Z., Dunham, E., Bydlon, S., Zhang, Z., Chen, X., Somala, S. N., Pelties, C., Tago, J., Cruz-Atienza, V. M., Kozdon, J., Daub, E., Aslam, K., Kase, Y., Withers, K., Dalguer, L., (2018), "A Suite of Exercises for Verifying Dynamic Earthquake Rupture Codes", Seismological Research Letters, 83, 3: pg: 1146--1162, (DOI: 10.1785/0220170222). Cited by:
Heckman, V. M., (2014), "Damage detection in civil structures using high-frequency seismograms", California Institute of Technology: . Cited by:
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:
Henderson, S. T., Delgado, F., Elliott, J., Pritchard, M. E., Lundgren, P. R., (2017), "Decelerating uplift at Lazufre volcanic center, Central Andes, from A.D. 2010 to 2016, and implications for geodetic models", Geosphere, 13, 5: pg: 1489--1505, (DOI: 10.1130/GES01441.1). Cited by:
Henderson, S. T., Pritchard, M. E., (2017), "Time-dependent deformation of Uturuncu volcano, Bolivia, constrained by GPS and InSAR measurements and implications for source models", Geosphere, 13, 6: pg: 1834--1854, (DOI: 10.1130/GES01203.1). Cited by:
Hines, T. T., Hetland, E. A., (2016), "Rapid and simultaneous estimation of fault slip and heterogeneous lithospheric viscosity from post-seismic deformation", Geophysical Journal International, 204, 1: pg: 569--582, (DOI: 10.1093/gji/ggv477). Cited by:
Hoffmann, F., Metzger, S., Moreno, M., Deng, Z., Sippl, C., Ortega-Culaciati, F., Oncken, O., (2018), "Characterizing afterslip and ground displacement rate increase following the 2014 Iquique-Pisagua Mw 8.1 earthquake, Northern Chile", Journal of Geophysical Research: Solid Earth, Wiley-Blackwell, 123, 5: pg: 4171--4192, (DOI: 10.1002/2017jb014970). Cited by:
Holden, L., Cas, R., Fournier, N., Ailleres, L., (2017), "Modelling ground deformation patterns associated with volcanic processes at the Okataina Volcanic Centre", Journal of Volcanology and Geothermal Research, 344: pg: 65--78, (DOI: 10.1016/j.jvolgeores.2017.04.014). Cited by:
Hong, T-K, Choi, E., Park, S., Shin, J. S., (2016), "Prediction of ground motion and dynamic stress change in Baekdusan (Changbaishan) volcano caused by a North Korean nuclear explosion", Scientific Reports, 6: pg: 21477, (DOI: 10.1038/srep21477). Cited by:
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:
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:
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:
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:
BibTex | EndNote|Resources cited:[1][2]
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:
Inoue, N., (2014), "Northern Uemachi Flexure Zone Investigated by Borehole Database and Numerical Simulation", Journal Of Civil Engineering Research, 4, 3A: (DOI: 10.5923/c.jce.201402.19). Cited by:
Jagalur-Mohan, J., Jha, B., Wang, Z., Juanes, R., Marzouk, Y., (2018), "Inferring fault frictional and reservoir hydraulic properties from injection-induced seismicity", Geophysical Research Letters, Wiley-Blackwell, 45, 3: pg: 1313--1320, (DOI: 10.1002/2017gl075925). Cited by:
Jerry, R. R. V., (2013), "Effects of subsurface fracture interactions on surface deformation", Massachusetts Institute of Technology: . Cited by:
Jha, B., (2013), "Flow Through Porous Media: From Mixing of Fluids to Triggering of Earthquakes", Massachusetts Institute of Technology: . Cited by:
Jha, B., Juanes, R., (2014), "Coupled multiphase flow and poromechanics: A computational model of pore pressure effects on fault slip and earthquake triggering", Water Resources Research, 50, 5: pg: 3776--3808, (DOI: 10.1002/2013WR015175). Cited by:
Jin, L., Zoback, M. D., (2018), "Fully Dynamic Spontaneous Rupture Due to Quasi-Static Pore Pressure and Poroelastic Effects: An Implicit Nonlinear Computational Model of Fluid-Induced Seismic Events", Journal of Geophysical Research: Solid Earth, 123, 11: pg: 9430--9468, (DOI: 10.1029/2018JB015669). Cited by:
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:
Karimi, B., (2017), "Stress modeling to determine the through-going active fault geometry of the Western North Anatolian Fault, Turkey", Geotectonics, 51, 6: pg: 653--667, (DOI: 10.1134/S0016852117060024). Cited by:
Karimi, B., McQuarrie, N., Lin, J-S, Harbert, W., (2014), "Determining the geometry of the North Anatolian Fault East of the Marmara Sea through integrated stress modeling and remote sensing techniques", Tectonophysics, 623: pg: 14--22, (DOI: 10.1016/j.tecto.2014.03.015). Cited by:
Torberntsson, Kim, Stiernstrom, Vidar, (2016), "A High Order Finite Difference Method for Simulating Earthquake Sequences in a Poroelastic Medium", Uppsala University, Sweden: . Cited by:
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