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Renaud, G., Riviere, J., Larmat, C., Rutledge, J. T., Lee, R. C., Guyer, R. A., Stokoe, K., Johnson, P. A., (2014), "In situ characterization of shallow elastic nonlinear parameters with Dynamic Acoustoelastic Testing", Journal of Geophysical Research: Solid Earth, 119, 9: pg: 6907--6923, (DOI: 10.1002/2013JB010625). Cited by:
Rippke, Joseph, (2020), "Forearc Stresses in the Northern Cascadia Subduction Zone", University of Minnesota: . Cited by:
Ristau, J., Holden, C., Kaiser, A., Williams, C., Bannister, S., Fry, B., (2013), "The Pegasus Bay aftershock sequence of the Mw 7.1 Darfield (Canterbury), New Zealand earthquake", Geophysical Journal International, 195, 1: pg: 444--459, (DOI: 10.1093/gji/ggt222). Cited by:
Rutqvist, J., (2016), "An Overview of TOUGH-Based Geomechanics Models", Computers & Geosciences, 108: pg: 56--63, (DOI: 10.1016/j.cageo.2016.09.007). Cited by:
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:
Shelley, A., Savage, M., Williams, C., Aoki, Y., Gurevich, B., (2014), "Modeling shear wave splitting due to stress-induced anisotropy, with an application to Mount Asama Volcano, Japan", Journal of Geophysical Research: Solid Earth, 119, 5: pg: 4269--4286, (DOI: 10.1002/2013JB010817). Cited by:
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:
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:
Sone, H., Uchide, T., (2016), "Spatiotemporal evolution of a fault shear stress patch due to viscoelastic interseismic fault zone rheology", Tectonophysics, 684: pg: 63--75, (DOI: 10.1016/j.tecto.2016.04.017). Cited by:
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:
Thompson, J., Simons, M., Tsai, V. C., (2014), "Modeling the elastic transmission of tidal stresses to great distances inland in channelized ice streams", The Cryosphere, 8, 6: pg: 2007--2029, (DOI: 10.5194/tc-8-2007-2014). Cited by:
Thompson, J. M., (2013), "The short-timescale behavior of glacial ice", Citeseer: . Cited by:
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:
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:
Hines, Trever T., (2017), "Transient Ground Deformation in Tectonically Active Regions and Implications for the Mechanical Behavior of the Crust and Upper Mantle", : . Cited by:
Urpi, L., Rinaldi, A. P., Rutqvist, J., Cappa, F., Spiers, C. J., (2016), "Dynamic simulation of CO2-injection-induced fault rupture with slip-rate dependent friction coefficient", Geomechanics for Energy and the Environment, 7: pg: 47--65, (DOI: 10.1016/j.gete.2016.04.003). Cited by:
Wallace, L. M., Beavan, J., Bannister, S., Williams, C., (2012), "Simultaneous long-term and short-term slow slip events at the Hikurangi subduction margin, New Zealand: Implications for processes that control slow slip event occurrence, duration, and migration", Journal of Geophysical Research: Solid Earth, 117, B11: pg: B11402, (DOI: 10.1029/2012JB009489). Cited by:
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:
Weng, H., Huang, J., Yang, H., (2015), "Barrier-induced supershear ruptures on a slip-weakening fault", Geophysical Research Letters, 42, 12: pg: 4824--4832, (DOI: 10.1002/2015GL064281). Cited by:
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:
Weng, H., Yang, H., Zhang, Z., Chen, X., (2016), "Earthquake rupture extents and coseismic slips promoted by damaged fault zones: Ruptures Promoted by Fault Zones", Journal of Geophysical Research: Solid Earth, 121, 6: pg: 4446--4457, (DOI: 10.1002/2015JB012713). Cited by:
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:
Williams, C. A., Wallace, L. M., (2015), "Effects of material property variations on slip estimates for subduction interface slow-slip events: Elastic heterogeneity and SSE inversions", Geophysical Research Letters, 42, 4: pg: 1113--1121, (DOI: 10.1002/2014GL062505). Cited by:
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:
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:
Yang, H., Liu, Y., Lin, J., (2013), "Geometrical effects of a subducted seamount on stopping megathrust ruptures", Geophysical Research Letters, 40, 10: pg: 2011--2016, (DOI: 10.1002/grl.50509). Cited by:
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:
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:
Yin, J., Yang, H., Yao, H., Weng, H., (2016), "Coseismic radiation and stress drop during the 2015 M 8.3 Illapel, Chile megathrust earthquake: 2015 CHILE EVENT COSEISMIC PROCESS", Geophysical Research Letters, 43, 4: pg: 1520--1528, (DOI: 10.1002/2015GL067381). Cited by:
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:
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:
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:
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:
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:
Buffett, B., Matsui, H., (2015), "A power spectrum for the geomagnetic dipole moment", Earth and Planetary Science Letters, 411: pg: 20--26, (DOI: 10.1016/j.epsl.2014.11.045). Cited by:
Buffett, B. A., King, E. M., Matsui, H., (2014), "A physical interpretation of stochastic models for fluctuations in the Earth's dipole field", Geophysical Journal International, 198, 1: pg: 597--608, (DOI: 10.1093/gji/ggu153). Cited by:
Matsui, H., King, E., Buffett, B., (2014), "Multiscale convection in a geodynamo simulation with uniform heat flux along the outer boundary", Geochemistry, Geophysics, Geosystems, 15, 8: pg: 3212--3225, (DOI: 10.1002/2014GC005432). Cited by:
Featherstone, N., (2018), "Rayleigh 0.9.1", : (DOI: 10.5281/zenodo.1236565). Cited by:
Glatzmaier, G. A., Christensen, U., Olson, P., (2007), "MAG v1.0.1 [software]", Computational Infrastructure for Geodynamics: (DOI: NoDOI). Cited by:
Glatzmaier, G. A., Christensen, U., Olson, P., (2007), "MAG v1.0.2 [software]", Computational Infrastructure for Geodynamics: (DOI: NoDOI). Cited by:
Glatzmaier, G. A., Christensen, U., Olson, P., (2006), "MAG v1.0.0 [software]", Computational Infrastructure for Geodynamics: (DOI: NoDOI). Cited by:
Aagaard, B., (2016), "SpatialData v1.9.7 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Aagaard, B., (2016), "SpatialData v1.9.6 [software]", Computational Infrastructure for Geodynamics: (DOI: NoDOI). Cited by:
Aagaard, B., (2015), "SpatialData v1.9.5 [software]", Computational Infrastructure for Geodynamics: (DOI: NoDOI). Cited by:
Aagaard, B., (2014), "SpatialData v1.9.3 [software]", Computational Infrastructure for Geodynamics: (DOI: NoDOI). Cited by:
Aagaard, B., (2014), "SpatialData v1.9.4 [software]", Computational Infrastructure for Geodynamics: (DOI: NoDOI). Cited by:
Aagaard, B., (2013), "SpatialData v1.9.1 [software]", Computational Infrastructure for Geodynamics: (DOI: NoDOI). Cited by:
Aagaard, B., (2012), "SpatialData v1.8.1 [software]", Computational Infrastructure for Geodynamics: (DOI: NoDOI). Cited by:
Aagaard, B., (2012), "SpatialData v1.8.2 [software]", Computational Infrastructure for Geodynamics: (DOI: NoDOI). Cited by:
Aagaard, B., (2012), "SpatialData v1.9.0 [software]", Computational Infrastructure for Geodynamics: (DOI: NoDOI). Cited by:
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