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Solomatov, V. S., Jain, C., (2021), "Stability range of localized subcritical Rayleigh-Bernard convection in temperature-dependent viscosity fluids: Constraints from two-dimensional simulations", Physics of Fluids, 33, 5: pg: 056603, (DOI: 10.1063/5.0050576). Cited by:
Chen, Huawei, (2019), "Hydrogen in the Nominally Anhydrous Phases and Possible Hydrous Phases in the Lower Mantle", : pg: 154, Arizona State University, Tempe, Arizona, 9781088366943, . Cited by:
BibTex | EndNote|Resources cited:[1][2]
Moresi, L., Zhong, S., Gurnis, M., (2007), "CitcomCU v1.0.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Moresi, L., Zhong, S., Gurnis, M., (2006), "CitcomCU v1.0.1 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Moresi, L., Zhong, S., Gurnis, M., Armendariz, L., Tan, E., Becker, T., (2009), "CitcomCU v1.0.3 [software]", : . Cited by:
Agrusta, R., Goes, S., Hunen, J., (2017), "Subducting-slab transition-zone interaction: Stagnation, penetration and mode switches", Earth and Planetary Science Letters, 464: pg: 10--23, (DOI: 10.1016/j.epsl.2017.02.005). Cited by:
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Ballmer, M. D., Conrad, C. P., Smith, E. I., Harmon, N., (2013), "Non-hotspot volcano chains produced by migration of shear-driven upwelling toward the East Pacific Rise", Geology, 41, 4: pg: 479--482, (DOI: 10.1130/G33804.1). Cited by:
Ballmer, M. D., Conrad, C. P., Smith, E. I., Johnsen, R., (2015), "Intraplate volcanism at the edges of the Colorado Plateau sustained by a combination of triggered edge-driven convection and shear-driven upwelling", Geochemistry, Geophysics, Geosystems, 16, 2: pg: 366--379, (DOI: 10.1002/2014GC005641). Cited by:
Bianco, T. A., Conrad, C. P., Smith, E. I., (2011), "Time dependence of intraplate volcanism caused by shear-driven upwelling of low-viscosity regions within the asthenosphere", Journal of Geophysical Research: Solid Earth, 116, B11: pg: B11103, (DOI: 10.1029/2011JB008270). Cited by:
Billen, M. I., (2010), "Slab dynamics in the transition zone", Physics of the Earth and Planetary Interiors, 183, 1-2: pg: 296--308, (DOI: 10.1016/j.pepi.2010.05.005). Cited by:
Briaud, A., Agrusta, R., Faccenna, C., Funiciello, F., Hunen, J., (2020), "Topographic fingerprint of deep mantle subduction", Journal of Geophysical Research: Solid Earth, : (DOI: 10.1029/2019JB017962). Cited by:
Broek, J. M., Magni, V., Gaina, C., Buiter, S. J. H., (2019), "The formation of continental fragments in subduction settings: the importance of structural inheritance and subduction system dynamics", Journal of Geophysical Research: Solid Earth, : (DOI: 10.1029/2019JB018370). Cited by:
Burkett, E. R., Billen, M. I., (2010), "Three-dimensionality of slab detachment due to ridge-trench collision: Laterally simultaneous boudinage versus tear propagation", Geochemistry, Geophysics, Geosystems, 11, 11: pg: Q11012, (DOI: 10.1029/2010GC003286). Cited by:
Burkett, E. R., Billen, M. I., (2009), "Dynamics and implications of slab detachment due to ridge-trench collision", Journal of Geophysical Research, 114, B12: pg: B12402, (DOI: 10.1029/2009JB006402). Cited by:
Faccenna, C., Becker, T. W., Lallemand, S., Lagabrielle, Y., Funiciello, F., Piromallo, C., (2010), "Subduction-triggered magmatic pulses: A new class of plumes?", Earth and Planetary Science Letters, 299, 1-2: pg: 54--68, (DOI: 10.1016/j.epsl.2010.08.012). Cited by:
Freeburn, R., Bouilhol, P., Maunder, B., Magni, V., Hunen, J., (2017), "Numerical models of the magmatic processes induced by slab breakoff", Earth and Planetary Science Letters, 478: pg: 203--213, (DOI: 10.1016/j.epsl.2017.09.008). Cited by:
Harig, C., Zhong, S., Simons, F. J., (2010), "Constraints on upper mantle viscosity from the flow-induced pressure gradient across the Australian continental keel", Geochemistry, Geophysics, Geosystems, 11, 6: pg: Q06004, (DOI: 10.1029/2010GC003038). Cited by:
Haynie, K. L., Jadamec, M. A., (2017), "Tectonic drivers of the Wrangell block: Insights on fore-arc sliver processes from 3-D geodynamic models of Alaska", Tectonics, 36, 7: pg: 1180--1206, (DOI: 10.1002/2016TC004410). Cited by:
Hertgen, S., Yamato, P., Guillaume, B., Magni, V., Schliffke, N., Hunen, J., (2020), "Influence of the thickness of the overriding plate on convergence zone dynamics", Geochemistry, Geophysics, Geosystems, : (DOI: 10.1029/2019GC008678). Cited by:
Hoink, T., Lenardic, A., (2010), "Long wavelength convection, Poiseuille--Couette flow in the low-viscosity asthenosphere and the strength of plate margins", Geophysical Journal International, 180, 1: pg: 23--33, (DOI: 10.1111/j.1365-246X.2009.04404.x). Cited by:
Hoink, T., Lenardic, A., (2008), "Three-dimensional mantle convection simulations with a low-viscosity asthenosphere and the relationship between heat flow and the horizontal length scale of convection", Geophysical Research Letters, 35, 10: pg: L10304, (DOI: 10.1029/2008GL033854). Cited by:
Huang, C., Leng, W., Wu, Z., (2020), "The continually stable subduction, iron-spin transition and the formation of LLSVPs from subducted oceanic crust", Journal of Geophysical Research: Solid Earth, : (DOI: 10.1029/2019JB018262). Cited by:
Huang, J., Davies, G. F., (2007), "Geochemical processing in a three-dimensional regional spherical shell model of mantle convection", Geochemistry, Geophysics, Geosystems, 8, 11: pg: Q11006, (DOI: 10.1029/2007GC001625). Cited by:
Jadamec, M. A., (2016), "Insights on Slab-driven Mantle Flow from Advances in Three-dimensional modelling", Journal of Geodynamics, 100: pg: 51--70, (DOI: 10.1016/j.jog.2016.07.004). Cited by:
Jadamec, M. A., Billen, M. I., (2012), "The role of rheology and slab shape on rapid mantle flow: Three-dimensional numerical models of the Alaska slab edge", Journal of Geophysical Research: Solid Earth, 117, B2: pg: B02304, (DOI: 10.1029/2011JB008563). Cited by:
Jadamec, M. A., Billen, M. I., (2010), "Reconciling surface plate motions with rapid three-dimensional mantle flow around a slab edge", Nature, 465, 7296: pg: 338--341, (DOI: 10.1038/nature09053). Cited by:
Jadamec, M. A., Billen, M. I., Kreylos, O., (2012), "Three-dimensional Simulations of Geometrically Complex Subduction with Large Viscosity Variations", Proceedings of the 1st Conference of the Extreme Science and Engineering Discovery Environment: Bridging from the eXtreme to the Campus and Beyond, XSEDE '12, Acm, New York, NY, USA: pg: 31-1, (DOI: 10.1145/2335755.2335827). Cited by:
Jadamec, M. A., Billen, M. I., Roeske, S. M., (2013), "Three-dimensional numerical models of flat slab subduction and the Denali fault driving deformation in south-central Alaska", Earth and Planetary Science Letters, 376: pg: 29--42, (DOI: 10.1016/j.epsl.2013.06.009). Cited by:
Kaislaniemi, L., Hunen, J., Bouilhol, P., (2018), "Lithosphere destabilization by melt weakening and crust-mantle interactions: implications for generation of granite-migmatite belts", Tectonics, 37, 9: pg: 3102--3116, (DOI: 10.1029/2018TC005014). Cited by:
Leng, W., Zhong, S., (2009), "More constraints on internal heating rate of the Earth's mantle from plume observations", Geophysical Research Letters, 36, 2: pg: L02306, (DOI: 10.1029/2008GL036449). Cited by:
Li, M., Zhong, S., Olson, P., (2018), "Linking lowermost mantle structure, core-mantle boundary heat flux and mantle plume formation", Physics of the Earth and Planetary Interiors, 277: pg: 10--29, (DOI: 10.1016/j.pepi.2018.01.010). Cited by:
Long, X., Ballmer, M. D., Cordoba, A. M-C, Li, C-F, (2019), "Mantle melting and intraplate volcanism due to self-buoyant hydrous upwellings from the stagnant slab that are conveyed by small-scale convection", Geochemistry, Geophysics, Geosystems, 20, 11: pg: 4972--4997, (DOI: 10.1029/2019GC008591). Cited by:
Magni, V., (2019), "The effects of back-arc spreading on arc magmatism", Earth and Planetary Science Letters, 519: pg: 141--151, (DOI: 10.1016/j.epsl.2019.05.009). Cited by:
Magni, V., Allen, M. B., Hunen, J., Bouilhol, P., (2017), "Continental underplating after slab break-off", Earth and Planetary Science Letters, 474: pg: 59--67, (DOI: 10.1016/j.epsl.2017.06.017). Cited by:
Maunder, B., Hunen, J., Bouilhol, P., Magni, V., (2019), "Modeling Slab Temperature: A Reevaluation of the Thermal Parameter", Geochemistry, Geophysics, Geosystems, 20, 2: pg: 673-687, (DOI: 10.1029/2018GC007641). Cited by:
Maunder, B., Hunen, J., Magni, V., Bouilhol, P., (2016), "Relamination of mafic subducting crust throughout Earth's history", Earth and Planetary Science Letters, 449: pg: 206--216, (DOI: 10.1016/j.epsl.2016.05.042). Cited by:
Maunder, Benjamin, (2017), "The Role of the Dynamics of the Subducting Plate in Generating Arc Magmatism", Durham University, England: . Cited by:
Moresi, L., Zhong, S., Gurnis, M., (2006), "CitcomCU v1.0.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:
Motoki, M. H., Ballmer, M. D., (2015), "Intraplate volcanism due to convective instability of stagnant slabs in the mantle transition zone", Geochemistry, Geophysics, Geosystems, 16, 2: pg: 538--551, (DOI: 10.1002/2014GC005608). Cited by:
Obermaier, H., Billen, M. I., Hagen, H., Hering-Bertram, M., Hamann, B., (2011), "Visualizing Strain Anisotropy in Mantle Flow Fields", Computer Graphics Forum, 30, 8: pg: 2301--2313, (DOI: 10.1111/j.1467-8659.2011.02036.x). Cited by:
Schliffke, N., Hunen, J., Magni, V., Allen, M. B., (2019), "The Role of Crustal Buoyancy in the Generation and Emplacement of Magmatism During Continental Collision", Geochemistry, Geophysics, Geosystems, 20, 11: pg: 4693--4709, (DOI: 10.1029/2019GC008590). Cited by:
Sleep, N. H., (2008), "Channeling at the base of the lithosphere during the lateral flow of plume material beneath flow line hot spots", Geochemistry, Geophysics, Geosystems, 9, 8: pg: Q08005, (DOI: 10.1029/2008GC002090). Cited by:
Solomatov, V. S., (2012), "Localized subcritical convective cells in temperature-dependent viscosity fluids", Physics of the Earth and Planetary Interiors, 200-201: pg: 63--71, (DOI: 10.1016/j.pepi.2012.04.005). Cited by:
Taposeea, C. A., Armitage, J. J., Collier, J. S., (2016), "Asthenosphere and lithosphere structure controls on early onset oceanic crust production in the southern South Atlantic", Tectonophysics, 716: pg: 4--20, (DOI: 10.1016/j.tecto.2016.06.026). Cited by:
Trubitsyn, V. P., (2012), "Rheology of the mantle and tectonics of the oceanic lithospheric plates", Izvestiya, Physics of the Solid Earth, 48, 6: pg: 467--485, (DOI: 10.1134/S1069351312060079). Cited by:
Trubitsyn, V. P., Evseev, A. N., Evseev, M. N., Kharybin, E. V., (2011), "Mantle plumes in the models of quasi-turbulent thermal convection", Izvestiya, Physics of the Solid Earth, 47, 12: pg: 1027--1033, (DOI: 10.1134/S106935131112010X). Cited by:
Zhong, S., (2006), "Constraints on thermochemical convection of the mantle from plume heat flux, plume excess temperature, and upper mantle temperature", Journal of Geophysical Research, 111, B4: pg: B04409, (DOI: 10.1029/2005JB003972). Cited by:
Gu, T., Li, M., McCammon, C., Lee, K. K. M., (2016), "Redox-induced lower mantle density contrast and effect on mantle structure and primitive oxygen", Nature Geoscience, 9, 9: pg: 723--727, (DOI: 10.1038/ngeo2772). Cited by:
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