Citations Non-affiliated (118) | Affiliated (1)

Non-affiliated authors

• Gea, Pedro J., (2022), "Numerical modelling of physical processes involved in the recycling of the lithosphere", : University of Granada, . Cited by:

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• Root, B. C., Sebera, J., Szwillus, W., Thieulot, C., Martinec, Z., Fullea, J., (2022), "Benchmark forward gravity schemes: the gravity field of a realistic lithosphere model WINTERC-G", Solid Earth, 13, 5: pg: 849--873, (DOI: 10.5194/se-13-849-2022). Cited by:

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• Palmiotto, Camilla, Ficini, Eleonora, Loreto, Maria Filomena, Muccini, Filippo, Cuffaro, Marco, (2022), "Back-Arc Spreading Centers and Superfast Subduction: The Case of the Northern Lau Basin (SW Pacific Ocean)", Geosciences, 12, 2: (DOI: 10.3390/geosciences12020050). Cited by:

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• O’Neill, Craig, Aulbach, Sonja, (2022), "Destabilization of deep oxidized mantle drove the Great Oxidation Event", Science Advances, 8, 7: pg: eabg1626, (DOI: 10.1126/sciadv.abg1626). Cited by:

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• Stein, Claudia, Comeau, Matthew, Becken, Michael, Hansen, Ulrich, (2022), "Numerical study on the style of delamination", Tectonophysics, : pg: 229276, (DOI: 10.1016/j.tecto.2022.229276). Cited by:

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• Heyn, Björn H., Conrad, Clinton P., (2022), "On the relation between basal erosion of the lithosphere and surface heat flux for continental plume tracks", Geophysical Research Letters, n/a, n/a: pg: e2022GL098003, (DOI: 10.1029/2022GL098003). Cited by:

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• Negredo, Ana M., Hunen, Jeroen, Rodríguez-González, Juan, Fullea, Javier, (2022), "On the origin of the Canary Islands: Insights from mantle convection modelling", Earth and Planetary Science Letters, 584: pg: 117506, (DOI: 10.1016/j.epsl.2022.117506). Cited by:

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• Liu, Shangxin, King, Scott D., (2022), "Dynamics of the North American Plate: Large-Scale Driving Mechanism From Far-Field Slabs and the Interpretation of Shallow Negative Seismic Anomalies", Geochemistry, Geophysics, Geosystems, 23, 3: pg: e2021GC009808, (DOI: 10.1029/2021GC009808). Cited by:

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• Bangerth, W., Dannberg, J., Fraters, M., Gassmoeller, R., Glerum, A., Heister, T., Naliboff, J., (2021), "ASPECT v2.3.0", Zenodo: (DOI: 10.5281/zenodo.5131909). Cited by:

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• Saxena, A., Choi, E., Powell, C. A., Aslam, K. S., (2021), "Seismicity in the central and southeastern United States due to upper mantle heterogeneities", Geophysical Journal International, 225, 3: pg: 1624--1636, (DOI: 10.1093/gji/ggab051). Cited by:

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• Withers, Craig, (2021), "Modelling slab age and crustal thickness: numerical approaches to drivers of compressive stresses in the overriding plate in Andean style subduction zone systems", Durham University: Durham theses, . Cited by:

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• Sandiford, D., Brune, S., Glerum, A., Naliboff, J., Whittaker, J. M., (2021), "Kinematics of footwall exhumation at oceanic detachment faults: solid-block rotation and apparent unbending", Earth and Space Science Open Archive, : pg: 25, (DOI: 10.1002/essoar.10506103.1). Cited by:

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• Hoggard, Mark, Austermann, Jacqueline, Randel, Cody, Stephenson, Simon, H. Marquardt, M. Ballmer (2021), "Mantle convection and surface expressions", Observational estimates of dynamic topography through space and time, AGU Geophysical Monograph Series, Washington, D.C.: (DOI: 10.1002/9781119528609.ch15). Cited by:

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• Heckenbach, E. L., Brune, S., Glerum, A. C., Bott, J., (2021), "Is there a Speed Limit for the Thermal Steady-State Assumption in Continental Rifts?", Geochemistry, Geophysics, Geosystems, n/a, n/a: . Cited by:

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• Gouiza, M., Naliboff, J., (2021), "Rheological inheritance controls the formation of segmented rifted margins in cratonic lithosphere", Nature Communications, 12, 1: pg: 4653, (DOI: 10.1038/s41467-021-24945-5). Cited by:

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• Faccenna, C., Becker, T. W., Holt, A. F., Brun, J. P., (2021), "Mountain building, mantle convection, and supercontinents: Holmes (1931) revisited", Earth and Planetary Science Letters, 564: pg: 116905, . Cited by:

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• Clevenger, T. C., Heister, T., Kanschat, G., Kronbichler, M., (2021), "A Flexible, Parallel, Adaptive Geometric Multigrid Method for FEM", ACM Transactions on Mathematical Software, 47, 1: pg: 1--27, (DOI: 10.1145/3425193). Cited by:

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• 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, . Cited by:

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• 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:

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• 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:

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• 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:

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• 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:

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• 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:

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• Schuh-senlis, M., Cedric, T., Paul, C., Guillaume, C., (2020), "Structural Restoration of Geological Structures with Viscous Stokes Flow -- Principle and First Results", European Association of Geoscientists & Engineers, 2020, 1: pg: 1--5, . Cited by:

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• Rajaonarison, T. A., Stamps, D. S., Fishwick, S., Brune, S., Glerum, A., Hu, J., (2020), "Numerical Modeling of Mantle Flow Beneath Madagascar to Constrain Upper Mantle Rheology Beneath Continental Regions", Journal of Geophysical Research: Solid Earth, 125, 2: (DOI: 10.1029/2019JB018560). Cited by:

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• Negredo, A. M., Mancilla, F. d. L., Clemente, C., Morales, J., Fullea, J., (2020), "Geodynamic Modeling of Edge-Delamination Driven by Subduction-Transform Edge Propagator Faults: The Westernmost Mediterranean Margin (Central Betic Orogen) Case Study", Frontiers in Earth Science, 8: pg: 435, (DOI: 10.3389/feart.2020.533392). Cited by:

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• Mitrovica, J. X., Austermann, J., Coulson, S., Creveling, J. R., Hoggard, M. J., Jarvis, G. T., Richards, F. D., (2020), "Dynamic Topography and Ice Age Paleoclimate", Annual Review of Earth and Planetary Sciences, 48, 1: pg: 585--621, (DOI: 10.1146/annurev-earth-082517-010225). Cited by:

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• Louis-Napoleon, Arelie, Gerbault, M., Bonometti, T., Thieulot, Cedric, Martin, R., Vanderhaeghe, O., (2020), "3D numerical modeling of crustal polydiapirs with Volume-Of-Fluid methods", Geophysical Journal International, : (DOI: 10.1093/gji/ggaa141). Cited by:

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• Lesher, C. E., Dannberg, J., Barfod, G. H., Bennett, N. R., Glessner, J. J. G., Lacks, D. J., Brenan, J. M., (2020), "Iron isotope fractionation at the core-mantle boundary by thermodiffusion", Nature Geoscience, : (DOI: 10.1038/s41561-020-0560-y). Cited by:

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• Lees, M. E., Rudge, J. F., McKenzie, D., (2020), "Gravity, Topography, and Melt Generation Rates From Simple 3-D Models of Mantle Convection", Geochemistry, Geophysics, Geosystems, 21, 4: pg: 2019, . Cited by:

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• Heyn, Born H., Conrad, C. P., Tronnes, R. G., (2020), "How Thermochemical Piles Can (Periodically) Generate Plumes at Their Edges", Journal of Geophysical Research: Solid Earth, 125, 6: pg: 2019, . Cited by:

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• Heyn, B. H., Conrad, C. P., Tronnes, R. G., (2020), "Core-mantle boundary topography and its relation to the viscosity structure of the lowermost mantle", Earth and Planetary Science Letters, 543: pg: 116358, (DOI: 10.1016/j.epsl.2020.116358). Cited by:

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• Heron, P. J., Murphy, J. B., Nance, R. D., Pysklywec, R. N., (2020), "Pannotia's mantle signature: the quest for supercontinent identification", Geological Society, London, Special Publications, Geological Society of London, 503: (DOI: 10.1144/SP503-2020-7). Cited by:

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• Glerum, A., Brune, S., Stamps, D. S., Strecker, M. R., (2020), "Victoria continental microplate dynamics controlled by the lithospheric strength distribution of the East African Rift", Nature Communications, 11, 1: (DOI: 10.1038/s41467-020-16176-x). Cited by:

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• Gassmoller, R., Dannberg, J., Bangerth, W., Heister, T., Myhill, R., (2020), "On formulations of compressible mantle convection", Geophysical Journal International, 221, 2: pg: 1264--1280, (DOI: 10.1093/gji/ggaa078). Cited by:

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• Farangitakis, G. P., Heron, P. J., McCaffrey, K. J. W., Hunen, J., Kalnins, L. M., (2020), "The impact of oblique inheritance and changes in relative plate motion on the development of rift-transform systems", Earth and Planetary Science Letters, 541: pg: 116277, (DOI: 10.1016/j.epsl.2020.116277). Cited by:

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• Citron, R. I., Lourenco, D. L., Wilson, A. J., Grima, A. G., Wipperfurth, S. A., Rudolph, M. L., Cottaar, S., Montesi, L. G. J., (2020), "Effects of Heat-Producing Elements on the Stability of Deep Mantle Thermochemical Piles", Geochemistry, Geophysics, Geosystems, 21, 4: (DOI: 10.1029/2019GC008895). Cited by:

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• 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:

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• 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:

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• Bangerth, W., Dannberg, J., Gassmoeller, R., Heister, T., (2020), "ASPECT v2.2.0", Zenodo: (DOI: 10.5281/zenodo.3924604). Cited by:

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• Saxena, Arushi, (2020), "Investigating Intraplate Seismicity in the Central and Eastern US: Linking Observations and Numerical Models", : The University of Memphis, ProQuest Dissertations Publishing, . Cited by:

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• 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:

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• Uluocak, E. Sengul, Pysklywec, R. N., Gogus, O. H., Ulugergerli, E. U., (2019), "Multi-Dimensional Geodynamic Modeling in the Southeast Carpathians: Upper Mantle Flow Induced Surface Topography Anomalies", Geochemistry, Geophysics, Geosystems, American Geophysical Union (AGU): (DOI: 10.1029/2019gc008277). Cited by:

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• Steinberger, B., Bredow, E., Lebedev, S., Schaeffer, A., Torsvik, T. H., (2019), "Widespread volcanism in the Greenland-North Atlantic region explained by the Iceland plume", Nature Geoscience, 12, 1: pg: 61, (DOI: 10.1038/s41561-018-0251-0). Cited by:

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• Robey, Jonathan Michael, (2019), "On the Design, Implementation, and Use of a Volume-of-Fluid Interface Tracking Algorithm For Modeling Convection and other Processes in the Earth’s Mantle", ProQuest Dissertations Publishing, University of California, Davis, 13905116: . Cited by:

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• Robey, J. M., Puckett, E. G., (2019), "Implementation of a Volume-of-Fluid method in a finite element code with applications to thermochemical convection in a density stratified fluid in the Earth's mantle", Computers & Fluids, Elsevier BV, 190: pg: 217--253, (DOI: 10.1016/j.compfluid.2019.05.015). Cited by:

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• Renaud, J. P., (2019), "A Study of the Tidal and Thermal Evolution of Rocky & Icy Worlds Utilizing Advanced Rheological Models", George Mason University: . Cited by:

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• Njinju, E. A., Atekwana, E. A., Stamps, D. S., Abdelsalam, M. G., Mickus, K. L., Fishwick, S., Kolawole, F., Rajaonarison, T. A., Nyalugwe, V. N., (2019), "Lithospheric Structure of the Malawi Rift: Implications for Magma-Poor Rifting Processes", Tectonics, 38, 11: pg: 3835--3853, (DOI: 10.1029/2019TC005549). Cited by:

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• Mousavi, N., (2019), "Crustal and (sub)lithospheric structure beneath the Iranian Plateau from geophysical modeling", University of Kiel, Germany: . Cited by:

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• Mondy, Luke S., (2019), "On the dynamics of continental rifting: a numerical modelling approach", University of Sydney: pg: 139, . Cited by:

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• Liu, S., King, S. D., (2019), "A Benchmark Study of Incompressible Stokes Flow in a 3-D Spherical Shell Using ASPECT", Geophysical Journal International, 217, 1: pg: 650--667, (DOI: 10.1093/gji/ggz036). Cited by:

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• Lin, J., Xu, Y., Sun, Z., Zhou, Z., (2019), "Mantle upwelling beneath the South China Sea and links to surrounding subduction systems", National Science Review, Oxford University Press, 6, 5: pg: 877--881, (DOI: 10.1093/nsr/nwz123). Cited by:

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• Janssen, W. J., (2019), "A comparison of GOCO05c satellite data to synthetic gravity fields computed from 3D density models in ASPECT", Utrecht University: . Cited by:

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• Heron, P. J., Peace, A. L., McCaffrey, K. J. W., Welford, J. K., Wilson, R., Hunen, J., Pysklywec, R. N., (2019), "Segmentation of Rifts Through Structural Inheritance: Creation of the Davis Strait", Tectonics, 38, 7: pg: 2411--2430, (DOI: 10.1029/2019TC005578). Cited by:

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• Glerum, A., (2019), "Geodynamics of complex plate boundary regions", Universiteit Utrecht: . Cited by:

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• Gassmoller, R., Lokavarapu, H., Bangerth, W., Puckett, E. G., (2019), "Evaluating the accuracy of hybrid finite element/particle-in-cell methods for modelling incompressible Stokes flow", Geophysical Journal International, 219, 3: pg: 1915--1938, (DOI: 10.1093/gji/ggz405). Cited by:

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• Fraters, M. R. T., Bangerth, W., Thieulot, C., Glerum, A. C., Spakman, W., (2019), "Efficient and practical Newton solvers for non-linear Stokes systems in geodynamic problems", Geophysical Journal International, 218, 2: pg: 873--894, (DOI: 10.1093/gji/ggz183). Cited by:

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• Fraters, M. R. T., (2019), "Towards numerical modelling of natural subduction systems with an application to Eastern Caribbean subduction", Utrecht University: . Cited by:

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• Fraters, M., Thieulot, C., Berg, A., Spakman, W., (2019), "The Geodynamic World Builder: a solution for complex initial conditions in numerical modeling", Solid Earth, 10, 5: pg: 1785--1807, (DOI: 10.5194/se-10-1785-2019). Cited by:

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• Dannberg, J., Gassmoller, R., Grove, R., Heister, T., (2019), "A new formulation for coupled magma/mantle dynamics", Geophysical Journal International, Oxford University Press, 219, 1: pg: 94--107, (DOI: 10.1093/gji/ggz190). Cited by:

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• Corti, G., Cioni, R., Franceschini, Z., Sani, F., Scaillet, Stephane, Molin, P., Isola, I., Mazzarini, F., Brune, S., Keir, D., Erbello, A., Muluneh, A., Illsley-Kemp, F., Glerum, A., (2019), "Aborted propagation of the Ethiopian rift caused by linkage with the Kenyan rift", Nature Communications, 10: pg: 1309, (DOI: 10.1038/s41467-019-09335-2). Cited by:

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• Clevenger, T. C., (2019), "A Parallel Geometric Multigrid Method for Adaptive Finite Elements", Clemson University: . Cited by:

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• 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:

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• Şengül-Uluocak, E., Pysklywec, R. N., Göğüş, O. H., Ulugergerli, E. U., (2019), "Multi-Dimensional Geodynamic Modeling in the Southeast Carpathians: Upper Mantle Flow Induced Surface Topography Anomalies", Geochemistry, Geophysics, Geosystems, ja: (DOI: 10.1029/2019GC008277). Cited by:

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• Schuurmans, L. F. J., (2018), "Numerical modelling of overriding plate deformation and slab rollback in the Western Mediterranean", Utrecht University: . Cited by:

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• Puckett, E. G., Turcotte, D. L., He, Y., Lokavarapu, H., Robey, J. M., Kellogg, L. H., (2018), "New numerical approaches for modeling thermochemical convection in a compositionally stratified fluid", Physics of the Earth and Planetary Interiors, 276: pg: 10--35, (DOI: 10.1016/j.pepi.2017.10.004). Cited by:

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• Perry-Houts, J., Karlstrom, L., (2018), "Anisotropic viscosity and time-evolving lithospheric instabilities due to aligned igneous intrusions", Geophysical Journal International, Oxford University Press, 216, 2: pg: 794--802, (DOI: 10.1093/gji/ggy466). Cited by:

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• O'Neill, C. J., Zhang, S., (2018), "Lateral mixing processes in the Hadean", Journal of geophysical research., [Wiley Subscription Services, Inc.], [Hoboken, NJ] :, 123: pg: 7074– 7089, (DOI: 10.1029/2018JB015698). Cited by:

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• O'Neill, C., Turner, S., Rushmer, T., (2018), "The inception of plate tectonics: a record of failure", Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 376, 2132: pg: 20170414, (DOI: 10.1098/rsta.2017.0414). Cited by:

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• Perry-Houts, Jonathan, (2018), "Geodynamic Origin of the Columbia River Flood Basalts", ProQuest Dissertations and Theses: 9780438882881, . Cited by:

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• Heron, P. J., Pysklywec, R. N., Stephenson, R., Hunen, J., (2018), "Deformation driven by deep and distant structures: Influence of a mantle lithosphere suture in the Ouachita orogeny, southeastern United States", Geology, 47, 2: pg: 147--150, (DOI: 10.1130/G45690.1). Cited by:

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• Glerum, A., Thieulot, C., Fraters, M., Blom, C., Spakman, W., (2018), "Nonlinear viscoplasticity in ASPECT: benchmarking and applications to subduction", Solid Earth, Copernicus GmbH, 9, 2: pg: 267--294, (DOI: 10.5194/se-9-267-2018). Cited by:

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• Ellowitz, Molly Kathryn, (2018), "Dynamics of Magma Recharge and Mixing at Mount Hood Volcano, Oregon -- Insights from Enclave-bearing Lavas", Portland State University, Portland, Oregon: . Cited by:

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• Dannberg, J., Gassmoller, R., (2018), "Chemical trends in ocean islands explained by plume--slab interaction", Proceedings of the National Academy of Sciences, National Academy of Sciences, 115, 17: pg: 4351--4356, (DOI: 10.1073/pnas.1714125115). Cited by:

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• 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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• Bangerth, W., Dannberg, J., Gassmoller, R., Heister, T., (2018), "ASPECT v2.0.1 [software]", : (DOI: 10.5281/zenodo.1297145). Cited by:

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• Bangerth, W., Dannberg, J., Gassmoller, R., Heister, T., (2018), "ASPECT v2.0.0 [software]", : (DOI: 10.5281/zenodo.1244587). Cited by:

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• 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:

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• Heister, T., Dannberg, J., Gassmöller, R., Bangerth, W., (2017), "High accuracy mantle convection simulation through modern numerical methods - II: realistic models and problems", Geophysical Journal International, 210, 2: pg: 833-851, (DOI: 10.1093/gji/ggx195). Cited by:

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• Zhang, N., Li, Z-X, (2017), "Formation of mantle lone plumes in the global downwelling zone -- A case for subduction-controlled plume generation beneath the South China Sea", Tectonophysics, 723: pg: 1--13, (DOI: 10.1016/j.tecto.2017.11.038). Cited by:

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• Thieulot, C., (2017), "Analytical solution for viscous incompressible Stokes flow in a spherical shell", Solid Earth, 8, 6: pg: 1181--1191, (DOI: 10.5194/se-8-1181-2017). Cited by:

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• Takeyama, K., Saitoh, T. R., Makino, J., (2017), "Variable inertia method: A novel numerical method for mantle convection simulation", New Astronomy, 50: pg: 82--103, (DOI: 10.1016/j.newast.2016.07.002). Cited by:

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• Rose, I., Buffett, B., (2017), "Scaling rates of true polar wander in convecting planets and moons", Physics of the Earth and Planetary Interiors, 273: pg: 1--10, (DOI: 10.1016/j.pepi.2017.10.003). Cited by:

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• O'Neill, C., Marchi, S., Zhang, S., Bottke, W., (2017), "Impact-driven subduction on the Hadean Earth", Nature Geoscience, Nature Publishing Group, 10, 10: pg: 793, (DOI: 10.1038/ngeo3029). Cited by:

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• Dannberg, J., Eilon, Z., Faul, U., Gassmoller, R., Moulik, P., Myhill, R., (2017), "The importance of grain size to mantle dynamics and seismological observations", Geochemistry, Geophysics, Geosystems, 18, 8: pg: 3034--3061, (DOI: 10.1002/2017GC006944). Cited by:

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• Cox, S. P., (2017), "Adaptive large-scale mantle convection simulations", University of Leicester: . Cited by:

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• 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:

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• Bredow, E., Steinberger, B., Gassmoller, R., Dannberg, J., (2017), "How plume-ridge interaction shapes the crustal thickness pattern of the Reunion hotspot track", Geochemistry, Geophysics, Geosystems, 18, 8: pg: 2930--2948, (DOI: 10.1002/2017GC006875). Cited by:

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• Bredow, E., (2017), "Geodynamic models of plume-ridge interaction", Universitat Potsdam: . Cited by:

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• 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:

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• 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:

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• Rose, I., Buffett, B., Heister, T., (2016), "Stability and accuracy of free surface time integration in viscous flows", Physics of the Earth and Planetary Interiors, 262: pg: 90-100, (DOI: 10.1016/j.pepi.2016.11.007). Cited by:

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• Dannberg, J., Heister, T., (2016), "Compressible Magma/Mantle Dynamics: 3d, Adaptive Simulations in ASPECT", Geophysical Journal International, 207, 3: pg: 1343-1366, (DOI: 10.1093/gji/ggw329). Cited by:

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• He, Y., Puckett, E.G., Billen, M.I., (2016), "A Discontinuous Galerkin Method with a Bound Preserving Limiter for the Advection of non-Diffusive Fields in Solid Earth Geodynamics", Physics of the Earth and Planetary Interiors, 263: pg: 23-37, (DOI: 10.1016/j.pepi.2016.12.001). Cited by:

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• Rose, I. R., (2016), "True polar wander on convecting planets", University of California, Berkeley: . Cited by:

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• Zhang, S., O'Neill, C., (2016), "The early geodynamic evolution of Mars-type planets", Icarus, 265: pg: 187--208, (DOI: 10.1016/j.icarus.2015.10.019). Cited by:

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• Kronbichler, Martin, Heister, Timo, Bangerth, Wolfgang, (2016), "ASPECT v1.4 [software]", Computational Infrastructure for Geodynamics: (DOI: 10.5281/zenodo.164192). Cited by:

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• Gassmoller, R., Dannberg, J., Bredow, E., Steinberger, B., Torsvik, T. H., (2016), "Major influence of plume-ridge interaction, lithosphere thickness variations, and global mantle flow on hotspot volcanism-The example of Tristan", Geochemistry, Geophysics, Geosystems, 17, 4: pg: 1454--1479, (DOI: 10.1002/2015GC006177). Cited by:

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• Dannberg, J., (2016), "Dynamics of Mantle Plumes: Linking Scales and Coupling Physics", Potsdam University: . Cited by:

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• 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:

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• Zelst, I. van, (2015), "Mantle dynamics on Venus: insights from numerical modelling", Utrecht University: . Cited by:

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• Tosi, N., Stein, C., Noack, L., Huttig, C., Maierova, P., Samuel, H., Davies, D. R., Wilson, C. R., Kramer, S. C., Thieulot, C., Glerum, A., Fraters, M., Spakman, W., Rozel, A., Tackley, P. J., (2015), "A community benchmark for viscoplastic thermal convection in a 2-D square box", Geochemistry, Geophysics, Geosystems, 16, 7: pg: 2175--2196, (DOI: 10.1002/2015GC005807). Cited by:

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• Kronbichler, Martin, Heister, Timo, Bangerth, Wolfgang, (2015), "ASPECT v1.3 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Kronbichler, Martin, Heister, Timo, Bangerth, Wolfgang, (2015), "ASPECT v1.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• 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:

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• Kronbichler, Martin, Heister, Timo, Bangerth, Wolfgang, (2014), "ASPECT v1.1 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Kronbichler, Martin, Heister, Timo, Bangerth, Wolfgang, (2014), "ASPECT v1.0 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Fraters, M. R. T., (2014), "Thermo-mechanically coupled subductionmodelling with ASPECT", Utrecht University: . Cited by:

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• 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:

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• Bangerth, W., Heister, T., others, (2014), "ASPECT: Advanced Solver for Problems in Earth's ConvecTion", : . Cited by:

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• Kronbichler, Martin, Heister, Timo, Bangerth, Wolfgang, (2013), "ASPECT v0.3 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Kronbichler, Martin, Heister, Timo, Bangerth, Wolfgang, (2013), "ASPECT v0.2 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• Kronbichler, M., Heister, T., Bangerth, W., (2012), "High accuracy mantle convection simulation through modern numerical methods", Geophysical Journal International, 191, 1: pg: 12-29, (DOI: 10.1111/j.1365-246X.2012.05609.x). Cited by:

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• Kronbichler, Martin, Heister, Timo, Bangerth, Wolfgang, (2012), "ASPECT v0.1 [software]", Computational Infrastructure for Geodynamics: . Cited by:

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• 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:

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• 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:

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• Muluneh, A. A., Brune, S., Illsley-Kemp, F., Corti, G., Keir, D., Glerum, A., Kidane, T., Mori, J., "Mechanism for deep crustal seismicity: Insight from modeling of deformation process at the Main Ethiopian Rift", Geochemistry, Geophysics, Geosystems, n/a, n/a: pg: 2020, (DOI: 10.1029/2020GC008935). Cited by:

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• Zha, Caicai, Lin, Jian, Zhou, Zhiyuan, Xu, Min, Zhang, Xubo, "Effects of hotspot-induced long-wavelength mantle melting variations on magmatic segmentation at the Reykjanes Ridge: Insights from 3D geodynamic modelling", Journal of Geophysical Research: Solid Earth, n/a, n/a: pg: e2021JB023244, (DOI: 10.1029/2021JB023244). Cited by:

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Affiliated authors

• Gassmöller, R., Lokavarapu, H., Heien, E.M., Puckett, E.G., Bangerth, W., (2018), "Flexible and scalable particle-in-cell methods with adaptive mesh refinement for geodynamic computations", Geochemistry, Geophysics, Geosystems, 19, 9: pg: 3596-3604, (DOI: 10.1029/2018GC007508). Cited by:

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