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Sangeetha, S., Raghukanth, S.T.G., (2022), "Broadband ground motion simulations for Northeast India", Soil Dynamics and Earthquake Engineering, 154: pg: 107120, (DOI: 10.1016/j.soildyn.2021.107120). Cited by:
Lee, Sungho, Saxena, Arushi, Song, Jung-Hun, Rhie, Junkee, Choi, Eunseo, (2021), "Contributions from lithospheric and upper-mantle heterogeneities to upper crustal seismicity in the Korean Peninsula", Geophysical Journal International, : 12, (DOI: 10.1093/gji/ggab527). Cited by:
Bishop, Jordan W., Fee, David, Modrak, Ryan, Tape, Carl, Kim, Keehoon, (2022), "Spectral Element Modeling of Acoustic to Seismic Coupling over Topography", Journal of Geophysical Research: Solid Earth, 127, 1: pg: e2021JB023142, (DOI: 10.1029/2021JB023142). Cited by:
Yao, Jie, (2021), "Constraints on Magma Ocean Crystallization in the Early Earth: Experiments, Thermodynamics and Ab initio simulations", Universität Bayreuth: . Cited by:
Lundin, E. R., Doré, A. G., Naliboff, J., Van Wijk, J., (2021), "Utilization of continental transforms in break-up: observations, models, and a potential link to magmatism", Geological Society, London, Special Publications, Geological Society of London, 524: (DOI: 10.1144/SP524-2021-119). Cited by:
Saha, Sumit, Reddy, K.S.K Karthik, Somala, Surendra Nadh, (2021), "Seismic assessment of steel frame subjected to simulated directivity earthquakes: The unilaterality of fault normal component at various rupture distances", Journal of Building Engineering, : pg: 103880, (DOI: 10.1016/j.jobe.2021.103880). Cited by:
Feng, Kewei, Huang, Duruo, Wang, Gang, Jin, Feng, Chen, Zhengwei, (2021), "Physics-based large-deformation analysis of coseismic landslides: A multiscale 3D SEM-MPM framework with application to the Hongshiyan landslide", Engineering Geology, : pg: 106487, (DOI: 10.1016/j.enggeo.2021.106487). Cited by:
Frazer, William D., Doran, Adrian K., Laske, Gabi, (2021), "Benchmarking Automated Rayleigh‐Wave Arrival Angle Measurements for USArray Seismograms", Seismological Research Letters, : 11, (DOI: 10.1785/0220210189). Cited by:
Lee, Jaeseok, Song, Jung‐Hun, Kim, Seongryong, Rhie, Junkee, Song, Seok Goo, (2021), "Three‐Dimensional Seismic‐Wave Propagation Simulations in the Southern Korean Peninsula Using Pseudodynamic Rupture Models", Bulletin of the Seismological Society of America, : 12, (DOI: 10.1785/0120210172). Cited by:
Lecoulant, Jean, Oliveira, Tiago C. A., Lin, Ying-Tsong, (2021), "Three-dimensional modeling of T-wave generation and propagation from a South Mid-Atlantic Ridge earthquake", The Journal of the Acoustical Society of America, 150, 5: pg: 3807-3824, (DOI: 10.1121/10.0007072). Cited by:
Sheibani, Mohamadreza, Wang, Yinhu, Ou, Ge, Marković, Nikola, (2022), "Efficient Structural Reconnaissance Surveying for Regional Postseismic Damage Inference with Optimal Inspection Scheduling", Journal of Engineering Mechanics, 148, 2: pg: 04021156, (DOI: 10.1061/(ASCE)EM.1943-7889.0002069). Cited by:
Spada, Giorgio, Melini, Daniele, (2021), "New estimates of ongoing sea level change and land movements caused by Glacial Isostatic Adjustment in the Mediterranean region", Geophysical Journal International, : 12, (DOI: 10.1093/gji/ggab508). Cited by:
Mendoza, L. P. O., Richter, A., Marderwald, E. R., Hormaechea, J. L., Connon, G., Scheinert, M., Dietrich, R., Perdomo, R. A., (2021), "Horizontal and vertical deformation rates linked to the Magallanes-Fagnano Fault, Tierra del Fuego: reconciling geological and geodetic observations by modeling the current seismic cycle", Tectonics, 41, 1: pg: e2021TC006801, (DOI: 10.1029/2021TC006801). Cited by:
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:
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:
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:
Tkalčić, Hrvoje, Wang, Sheng, Phạm, Thanh-Son, (2022), "Shear Properties of Earth's Inner Core", Annual Review of Earth and Planetary Sciences, 50, 1: pg: 153-181, (DOI: 10.1146/annurev-earth-071521-063942). Cited by:
Magni, Valentina, Naliboff, John, Prada, Manel, Gaina, Carmen, (2021), "Ridge Jumps and Mantle Exhumation in Back-Arc Basins", Geosciences, 11, 11: (DOI: 10.3390/geosciences11110475). Cited by:
Eckert, Eric, Scalise, Michelle, Louie, John N., Smith, Kenneth D., (2021), "Exploring Basin Amplification within the Reno Metropolitan Area in Northern Nevada Using a Magnitude 6.3 ShakeOut Scenario", Bulletin of the Seismological Society of America, : 10, (DOI: 10.1785/0120200309). Cited by:
Arndt, N. T., Coltice, N., Helmstaedt, H., Gregoire, M., (2009), "Origin of Archean subcontinental lithospheric mantle: Some petrological constraints", Lithos, 109, 1-2: pg: 61--71, (DOI: 10.1016/j.lithos.2008.10.019). Cited by:
Danis, C., O'Neill, C., Lackie, M. A., (2010), "Gunnedah Basin 3D architecture and upper crustal temperatures", Australian Journal of Earth Sciences, 57, 4: pg: 483--505, (DOI: 10.1080/08120099.2010.481353). Cited by:
Debaille, V., O'Neill, C., Brandon, A. D., Haenecour, P., Yin, Q-Z, Mattielli, N., Treiman, A. H., (2013), "Stagnant-lid tectonics in early Earth revealed by 142Nd variations in late Archean rocks", Earth and Planetary Science Letters, 373: pg: 83--92, (DOI: 10.1016/j.epsl.2013.04.016). Cited by:
Dyksterhuis, S., Rey, P., Muller, R. D., Moresi, L., (2007), "Effects of initial weakness on rift architecture", Geological Society, London, Special Publications, 282, 1: pg: 443--455, (DOI: 10.1144/SP282.18). Cited by:
Flament, N., Rey, P. F., Coltice, N., Dromart, G., Olivier, N., (2011), "Lower crustal flow kept Archean continental flood basalts at sea level", Geology, 39, 12: pg: 1159--1162, (DOI: 10.1130/G32231.1). Cited by:
Cun, Jonathan Poh Jing, (2015), "Evaluation of crustal fluid flow in Mesoarchean granite-greenstone terranes via numerical methods", University of Western Australia: . Cited by:
Moresi, L., Wijins, C., Dufour, F., Albert, R., O'Neill, C., (2007), "Ellipsis3D v1.0.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Moresi, L., Wijins, C., Dufour, F., Albert, R., O'Neill, C., (2006), "Ellipsis3D v1.0.1 [software]", Computational Infrastructure for Geodynamics: . Cited by:
O'Neill, C., Moresi, L., Muller, D., Albert, R., Dufour, F., (2006), "Ellipsis 3D: A particle-in-cell finite-element hybrid code for modelling mantle convection and lithospheric deformation", Computers & Geosciences, 32, 10: pg: 1769--1779, (DOI: 10.1016/j.cageo.2006.04.006). Cited by:
Pysklywec, R. N., Ellis, S. M., Gorman, A. R., (2010), "Three-dimensional mantle lithosphere deformation at collisional plate boundaries: A subduction scissor across the South Island of New Zealand", Earth and Planetary Science Letters, 289, 3-4: pg: 334--346, (DOI: 10.1016/j.epsl.2009.11.022). Cited by:
Rey, P. F., Coltice, N., Flament, N., (2014), "Spreading continents kick-started plate tectonics", Nature, 513, 7518: pg: 405--408, (DOI: 10.1038/nature13728). Cited by:
Rey, P. F., Muller, R. D., (2010), "Fragmentation of active continental plate margins owing to the buoyancy of the mantle wedge", Nature Geoscience, 3, 4: pg: 257--261, (DOI: 10.1038/ngeo825). Cited by:
Rey, P. F., Teyssier, C., Kruckenberg, S. C., Whitney, D. L., (2012), "Viscous collision in channel explains double domes in metamorphic core complexes: REPLY", Geology, 40, 10: pg: e280-e280, (DOI: 10.1130/G33202Y.1). Cited by:
Rey, P. F., Teyssier, C., Kruckenberg, S. C., Whitney, D. L., (2011), "Viscous collision in channel explains double domes in metamorphic core complexes", Geology, 39, 4: pg: 387--390, (DOI: 10.1130/G31587.1). Cited by:
Rey, P. F., Teyssier, C., Whitney, D. L., (2010), "Limit of channel flow in orogenic plateaux", Lithosphere, 2, 5: pg: 328--332, (DOI: 10.1130/L114.1). Cited by:
Rey, P. F., Teyssier, C., Whitney, D. L., (2009), "Extension rates, crustal melting, and core complex dynamics", Geology, 37, 5: pg: 391--394, (DOI: 10.1130/G25460A.1). Cited by:
Rey, P. F., Teyssier, C., Whitney, D. L., (2009), "The role of partial melting and extensional strain rates in the development of metamorphic core complexes", Tectonophysics, 477, 3-4: pg: 135--144, (DOI: 10.1016/j.tecto.2009.03.010). Cited by:
Thebaud, N., Rey, P. F., (2013), "Archean gravity-driven tectonics on hot and flooded continents: Controls on long-lived mineralised hydrothermal systems away from continental margins", Precambrian Research, 229: pg: 93--104, (DOI: 10.1016/j.precamres.2012.03.001). Cited by:
Whitney, D. L., Teyssier, C., Rey, P., Buck, W. R., (2013), "Continental and oceanic core complexes", Geological Society of America Bulletin, 125, 3-4: pg: 273--298, (DOI: 10.1130/B30754.1). Cited by:
Whitney, D. L., Teyssier, C., Rey, P. F., (2009), "The consequences of crustal melting in continental subduction", Lithosphere, 1, 6: pg: 323--327, (DOI: 10.1130/L62.1). Cited by:
Zhang, S., Leng, W., (2021), "Subduction Polarity Reversal: Induced or Spontaneous?", Geophysical Research Letters, 48, 11: pg: 2021, . Cited by:
Hager, B. H., O'Connell, R. J., Steinberger, B., Becker, T., (2009), "HC v1.0.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Hager, B. H., O'Connell, R. J., Steinberger, B., Becker, T., (2016), "HC v1.0.5 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Rudolph, M. L., Moulik, P., Lekic, V, (2020), "Bayesian Inference of Mantle Viscosity From Whole-Mantle Density Models", Geochemistry, Geophysics, Geosystems, 21, 11: pg: 2020, . Cited by:
Bellas, A. S., Zhong, S. (2021), "Reconciling the Rheology of Earth's Lithosphere Across Vastly Different Length- and Time-Scales", University of Colorado at Boulder, Ann Arbor: 9798738627736, . Cited by:
Cordoba, Manjon-Cabeza, Ballmer, M. D., (2021), "The role of edge-driven convection in the generation of volcanism ^A-- Part 1: A 2D systematic study", Solid Earth, 12, 3: pg: 613--632, (DOI: 10.5194/se-12-613-2021). Cited by:
Liu, H., Gurnis, M., Leng, W., (2021), "Constraints on Mantle Viscosity from Slab Dynamics", Journal of Geophysical Research: Solid Earth, 126, 8: pg: e2021JB022329, . Cited by:
Liu, J., Pearson, D. G., Wang, L. H., Mather, K. A., Kjarsgaard, B. A., Schaeffer, A. J., Irvine, G. J., Kopylova, M. G., Armstrong, J. P., (2021), "Plume-driven recratonization of deep continental lithospheric mantle", Nature, 592, 7856: pg: 732--736, (DOI: 10.1038/s41586-021-03395-5). Cited by:
Luo, T., Leng, W., (2021), "Thermal structure of continental subduction zone: high temperature caused by the removal of the preceding oceanic slab", Earth and Planetary Physics, 5, epp2021027: . Cited by:
Mao, W., Zhong, S. (2021), "Dynamic Constraints on Slab Stagnation in the Mantle Transition Zone and Mantle Viscosity from Modeling Mantle Convection", University of Colorado at Boulder, Ann Arbor: 9798738627774, . Cited by:
Schliffke, N., Hunen, J., Gueydan, F., Magni, V., Allen, M. B., (2021), "Curved orogenic belts, back-arc basins, and obduction as consequences of collision at irregular continental margins", Geology, : (DOI: 10.1130/G48919.1). Cited by:
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