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Moresi, L., Zhong, S., Gurnis, M., (1996), "The accuracy of finite element solutions of Stokes's flow with strongly varying viscosity", Physics of the Earth and Planetary Interiors, 97, 1-4: pg: 83--94, (DOI: 10.1016/0031-9201(96)03163-9). Cited by:
Naliboff, J. B., Kellogg, L. H., (2007), "Can large increases in viscosity and thermal conductivity preserve large-scale heterogeneity in the mantle?", Physics of the Earth and Planetary Interiors, 161, 1-2: pg: 86--102, (DOI: 10.1016/j.pepi.2007.01.009). Cited by:
Naliboff, J. B., Kellogg, L. H., (2006), "Dynamic effects of a step-wise increase in thermal conductivity and viscosity in the lowermost mantle", Geophysical Research Letters, 33, 12: pg: L12S09, (DOI: 10.1029/2006GL025717). Cited by:
Puster, P., Hager, B. H., Jordan, T. H., (1995), "Mantle convection experiments with evolving plates", Geophysical Research Letters, 22, 16: pg: 2223--2226, (DOI: 10.1029/95GL01998). Cited by:
Puster, P., Jordan, T. H., Hager, B. H., (1995), "Characterization of mantle convection experiments using two-point correlation functions", Journal of Geophysical Research: Solid Earth, 100, B4: pg: 6351--6365, (DOI: 10.1029/94JB03268). Cited by:
Redmond, H. L., King, S. D., (2007), "Does mantle convection currently exist on Mercury?", Physics of the Earth and Planetary Interiors, 164, 3-4: pg: 221--231, (DOI: 10.1016/j.pepi.2007.07.004). Cited by:
Rowland, A., Davies, J. H., (1999), "Buoyancy rather than rheology controls the thickness of the overriding mechanical lithosphere at subduction zones", Geophysical Research Letters, 26, 19: pg: 3037--3040, (DOI: 10.1029/1999GL005347). Cited by:
Samuel, H., Farnetani, C. G., (2003), "Thermochemical convection and helium concentrations in mantle plumes", Earth and Planetary Science Letters, 207, 1-4: pg: 39--56, (DOI: 10.1016/S0012-821X(02)01125-1). Cited by:
Shapiro, S. S., Hager, B. H., Jordan, T. H., R.D. van der Hilst and W.F. McDonough (1999), "Developments in Geotectonics", Stability and dynamics of the continental tectosphere, Elsevier, 48, 1-4: pg: 115--133, 0419-0254, (DOI: 10.1016/S0419-0254(99)80008-1). Cited by:
Showman, A. P., (2004), "Numerical simulations of convection in Europa's ice shell: Implications for surface features", Journal of Geophysical Research, 109, E1: pg: E01010, (DOI: 10.1029/2003JE002103). Cited by:
Showman, A. P., Han, L., (2005), "Effects of plasticity on convection in an ice shell: Implications for Europa", Icarus, 177, 2: pg: 425--437, (DOI: 10.1016/j.icarus.2005.02.020). Cited by:
Sidorin, I., Gurnis, M., Helmberger, D. V., (1999), "Dynamics of a phase change at the base of the mantle consistent with seismological observations", Journal of Geophysical Research: Solid Earth, 104, B7: pg: 15005--15023, (DOI: 10.1029/1999JB900065). Cited by:
Squyres, S. W., Jankowski, D. G., Simons, M., Solomon, S. C., Hager, B. H., McGill, G. E., (1992), "Plains tectonism on Venus: The deformation belts of Lavinia Planitia", Journal of Geophysical Research, 97, E8: pg: 13579, (DOI: 10.1029/92JE00481). Cited by:
Tackley, P. J., King, S. D., (2003), "Testing the tracer ratio method for modeling active compositional fields in mantle convection simulations", Geochemistry, Geophysics, Geosystems, 4, 4: pg: 8302, (DOI: 10.1029/2001GC000214). Cited by:
Tan, E., (2005), "Metastable superplumes and mantle compressibility", Geophysical Research Letters, 32, 20: pg: L20307, (DOI: 10.1029/2005GL024190). Cited by:
Tanton, L. T. E., Hager, B. H., (2000), "Melt intrusion as a trigger for lithospheric foundering and the eruption of the Siberian flood basalts", Geophysical Research Letters, 27, 23: pg: 3937--3940, (DOI: 10.1029/2000GL011751). Cited by:
Keken, P. E., Currie, C., King, S. D., Behn, M. D., Cagnioncle, A., He, J., Katz, R. F., Lin, S-C, Parmentier, E. M., Spiegelman, M., Wang, K., (2008), "A community benchmark for subduction zone modeling", Physics of the Earth and Planetary Interiors, 171, 1-4: pg: 187--197, (DOI: 10.1016/j.pepi.2008.04.015). Cited by:
Keken, P. E., King, S. D., Schmeling, H., Christensen, U. R., Neumeister, D., Doin, M-P, (1997), "A comparison of methods for the modeling of thermochemical convection", Journal of Geophysical Research: Solid Earth, 102, B10: pg: 22477--22495, (DOI: 10.1029/97JB01353). Cited by:
Watters, W. A., Zuber, M. T., Hager, B. H., (2009), "Thermal perturbations caused by large impacts and consequences for mantle convection", Journal of Geophysical Research, 114, E2: pg: E02001, (DOI: 10.1029/2007JE002964). Cited by:
Zhong, S., Gurnis, M., (1995), "Towards a realistic simulation of plate margins in mantle convection", Geophysical Research Letters, 22, 8: pg: 981--984, (DOI: 10.1029/95GL00782). Cited by:
Zhong, S., Gurnis, M., (1994), "Role of plates and temperature-dependent viscosity in phase change dynamics", Journal of Geophysical Research, 99, B8: pg: 15903, (DOI: 10.1029/94JB00545). Cited by:
Zhong, S., Gurnis, M., (1993), "Dynamic feedback between a continentlike raft and thermal convection", Journal of Geophysical Research: Solid Earth, 98, B7: pg: 12219--12232, (DOI: 10.1029/93JB00193). Cited by:
Zhong, S., Gurnis, M., (1992), "Viscous flow model of a subduction zone with a faulted lithosphere: Long and short wavelength topography, gravity and geoid", Geophysical Research Letters, 19, 18: pg: 1891--1894, (DOI: 10.1029/92GL02142). Cited by:
Zhong, S., Gurnis, M., Hulbert, G., (1993), "Accurate determination of surface normal stress in viscous flow from a consistent boundary flux method", Physics of the Earth and Planetary Interiors, 78, 1-2: pg: 1--8, (DOI: 10.1016/0031-9201(93)90078-N). Cited by:
Zhong, S., Gurnis, M., Moresi, L., (1996), "Free-surface formulation of mantle convection-I. Basic theory and application to plumes", Geophysical Journal International, 127, 3: pg: 708--718, (DOI: 10.1111/j.1365-246X.1996.tb04049.x). Cited by:
Featherstone, Nicholas A., Edelmann, Philipp V. F., Gassmoeller, Rene, Matilsky, Loren I., Orvedahl, Ryan J., Wilson, Cian R., (2021), "geodynamics/Rayleigh: Rayleigh Version 1.0.0", Zenodo: Nov, (DOI: 10.5281/zenodo.5683601). Cited by:
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:
Abreu, R., Durand, S., (2021), "Understanding Micropolar Theory in the Earth Sciences II: The Seismic Moment Tensor", Pure and Applied Geophysics, : (DOI: 10.1007/s00024-021-02894-w). Cited by:
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:
Bangerth, W., Dannberg, J., Gassmoeller, R., Heister, T., (2020), "ASPECT v2.2.0", Zenodo: (DOI: 10.5281/zenodo.3924604). Cited by:
Bangerth, W., Dannberg, J., Gassmoeller, R., Heister, T., others, (2020), "ASPECT: Advanced Solver for Problems in Earth's ConvecTion, User Manual", : (DOI: 10.6084/m9.figshare.4865333.v7). Cited by:
Bangerth, W., Dannberg, J., Gassmoller, R., Heister, T., others, (2018), "ASPECT: Advanced Solver for Problems in Earth's ConvecTion, User Manual", Computational Infrastructure for Geodynamics, Davis, CA: (DOI: 10.6084/m9.figshare.4865333). Cited by:
Bangerth, W., Dannberg, J., Gassmoller, R., Heister, T., others, (2017), "ASPECT: Advanced Solver for Problems in Earth's ConvecTion, User Manual", Computational Infrastructure for Geodynamics, Davis, CA: (DOI: 10.6084/m9.figshare.4865333). Cited by:
Arndt, D., Bangerth, W., Davydov, D., Heister, T., Heltai, L., Kronbichler, M., Maier, M., Pelteret, J-P, Turcksin, B., Wells, D., (2021), "The deal.II finite element library: Design, features, and insights", Computers & Mathematics with Applications, 81: pg: 407--422, (DOI: 10.1016/j.camwa.2020.02.022). Cited by:
Assanelli, M., Luoni, P., Rebay, G., Roda, M., Spalla, M. I., (2020), "Tectono-Metamorphic Evolution of Serpentinites from Lanzo Valleys Subduction Complex (Piemonte--Sesia-Lanzo Zone Boundary, Western Italian Alps)", Minerals, 10, 11: pg: 985, (DOI: 10.3390/min10110985). Cited by:
Austermann, J., Mitrovica, J. X., Huybers, P., Rovere, A., (2017), "Detection of a dynamic topography signal in last interglacial sea-level records", Science Advances, 3, 7: pg: 1700457, (DOI: 10.1126/sciadv.1700457). Cited by:
Austermann, J., Pollard, D., Mitrovica, J. X., Moucha, R., Forte, A. M., DeConto, R. M., Rowley, D. B., Raymo, M. E., (2015), "The impact of dynamic topography change on Antarctic ice sheet stability during the mid-Pliocene warm period", Geology, 43, 10: pg: 927--930, (DOI: 10.1130/G36988.1). Cited by:
Bangerth, W., Burstedde, C., Heister, T., Kronbichler, M., (2011), "Algorithms and data structures for massively parallel generic adaptive finite element codes", ACM Transactions on Mathematical Software, 38, 2: pg: 1--28, (DOI: 10.1145/2049673.2049678). Cited by:
Bangerth, W., Dannberg, J., Gassmoller, R., Heister, T., (2018), "ASPECT v2.0.0 [software]", : (DOI: 10.5281/zenodo.1244587). Cited by:
Bangerth, W., Dannberg, J., Gassmoller, R., Heister, T., (2018), "ASPECT v2.0.1 [software]", : (DOI: 10.5281/zenodo.1297145). Cited by:
Bangerth, W., Dannberg, J., Gassmoller, R., Heister, T., others, and, (2017), "ASPECT v1.5.0 [software]", Computational Infrastructure for Geodynamics, Davis, CA: (DOI: 10.5281/zenodo.344623). Cited by:
Bangerth, W., Hartmann, R., Kanschat, G., (2007), "deal.II---A general-purpose object-oriented finite element library", ACM Transactions on Mathematical Software, 33, 4: pg: 24-es, (DOI: 10.1145/1268776.1268779). Cited by:
Bangerth, W., Heister, T., others, (2014), "ASPECT: Advanced Solver for Problems in Earth's ConvecTion", : . Cited by:
Bangerth, W., Heister, T., others, Geodynamics, Computational Infrastructure, (2014), "ASPECT: Advanced Solver for Problems in Earth's ConvecTion", Computational Infrastructure for Geodynamics, Davis, CA: . Cited by:
Barrionuevo, M., Liu, S., Mescua, J., Yagupsky, D., Quinteros, J., Giambiagi, L., Sobolev, S. V., Piceda, C. R., Strecker, M. R., (2021), "The influence of variations in crustal composition and lithospheric strength on the evolution of deformation processes in the southern Central Andes: insights from geodynamic models", International Journal of Earth Sciences, : (DOI: 10.1007/s00531-021-01982-5). Cited by:
Bauville, A., Baumann, T. S., (2019), "geomIO: an open-source MATLAB toolbox to create the initial configuration of 2D/3D thermo-mechanical simulations from 2D vector drawings", Geochemistry, Geophysics, Geosystems, 20, 3: pg: 1665--1675, (DOI: 10.1029/2018GC008057). Cited by:
Blom, C. A. H., (2016), "State of the art numerical subduction modelling with ASPECT; thermo-mechanically coupled viscoplastic compressible rheology, free surface, phase changes, latent", Utrecht University: . Cited by:
Bredow, E., (2017), "Geodynamic models of plume-ridge interaction", Universitat Potsdam: . Cited by:
Bredow, E., Steinberger, B., (2021), "Mantle Convection and Possible Mantle Plumes beneath Antarctica -- Insights from Geodynamic Models and Implications for Topography", Geological Society, London, Memoirs, Geological Society of London, 56: (DOI: 10.1144/M56-2020-2). Cited by:
Bredow, E., Steinberger, B., (2018), "Variable Melt Production Rate of the Kerguelen HotSpot Due To Long-Term Plume-Ridge Interaction", Geophysical Research Letters, 45, 1: pg: 126--136, (DOI: 10.1002/2017GL075822). Cited by:
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