UWGeodynamics: A teaching and research tool for numerical geodynamic modelling

Romain Beucher; Louis Moresi; Julian Giordani; John Mansour; Dan Sandiford; Rebecca Farrington; Luke Mondy; Claire Mallard; Patrice Rey; Guillaume Duclaux; Owen Kaluza; Arijit Laik; Sara Morón

doi:10.21105/joss.01136

UWGeodynamics: A teaching and research tool for numerical geodynamic modelling

Romain Beucher
, Louis Moresi
, Julian Giordani
, John Mansour
, Dan Sandiford
, Rebecca Farrington
, Luke Mondy
, Claire Mallard
, Patrice Rey
, Guillaume Duclaux
, Owen Kaluza
, Arijit Laik
, Sara Morón

Geology and Geochemistry

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

The UWGeodynamics module facilitates development of 2D and 3D thermo-mechanicalgeodynamic models (Subduction, Rift, Passive Margins, Orogenic systems etc.). It isdesigned to be used for research and teaching, and combined the flexibility of the Under-world Application Programming Interface, (Moresi, Dufour, & Mühlhaus, 2002, Moresi,Dufour, & Mühlhaus (2003), Moresi et al. (2007)) with a structured workflow...

Original language	English
Article number	1136
Pages (from-to)	1-2
Number of pages	2
Journal	Journal of Open Source Software
Volume	4
Issue number	36
DOIs	https://doi.org/10.21105/joss.01136
Publication status	Published - 11 Apr 2019

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10.21105/joss.01136

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abstract = "The UWGeodynamics module facilitates development of 2D and 3D thermo-mechanicalgeodynamic models (Subduction, Rift, Passive Margins, Orogenic systems etc.). It isdesigned to be used for research and teaching, and combined the flexibility of the Under-world Application Programming Interface, (Moresi, Dufour, \& M{\"u}hlhaus, 2002, Moresi,Dufour, \& M{\"u}hlhaus (2003), Moresi et al. (2007)) with a structured workflow...",

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T1 - UWGeodynamics: A teaching and research tool for numerical geodynamic modelling

AU - Beucher, Romain

AU - Moresi, Louis

AU - Giordani, Julian

AU - Mansour, John

AU - Sandiford, Dan

AU - Farrington, Rebecca

AU - Mondy, Luke

AU - Mallard, Claire

AU - Rey, Patrice

AU - Duclaux, Guillaume

AU - Kaluza, Owen

AU - Laik, Arijit

AU - Morón, Sara

PY - 2019/4/11

Y1 - 2019/4/11

N2 - The UWGeodynamics module facilitates development of 2D and 3D thermo-mechanicalgeodynamic models (Subduction, Rift, Passive Margins, Orogenic systems etc.). It isdesigned to be used for research and teaching, and combined the flexibility of the Under-world Application Programming Interface, (Moresi, Dufour, & Mühlhaus, 2002, Moresi,Dufour, & Mühlhaus (2003), Moresi et al. (2007)) with a structured workflow...

AB - The UWGeodynamics module facilitates development of 2D and 3D thermo-mechanicalgeodynamic models (Subduction, Rift, Passive Margins, Orogenic systems etc.). It isdesigned to be used for research and teaching, and combined the flexibility of the Under-world Application Programming Interface, (Moresi, Dufour, & Mühlhaus, 2002, Moresi,Dufour, & Mühlhaus (2003), Moresi et al. (2007)) with a structured workflow...

U2 - 10.21105/joss.01136

DO - 10.21105/joss.01136

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JO - Journal of Open Source Software

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IS - 36

M1 - 1136

ER -

UWGeodynamics: A teaching and research tool for numerical geodynamic modelling

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