Characteristics of Earthquake Cycles: A Cross-Dimensional Comparison of 0D to 3D Numerical Models

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Characteristics of Earthquake Cycles: A Cross-Dimensional Comparison of 0D to 3D Numerical Models
 
Li, M.; Pranger, C.; van Dinther, Y.
(2022) Journal of Geophysical Research: Solid Earth, volume 127, issue 8, pp. 1 - 26
(Article)
Abstract
High-resolution computer simulations of earthquake sequences in three or even two dimensions pose great demands on time and energy, making lower-cost simplifications a competitive alternative. We systematically study the advantages and limitations of simplifications that eliminate spatial dimensions in quasi-dynamic earthquake sequence models, from 3D models with a 2D fault ... read more
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Keywords: cross-dimensional comparison, earthquake sequence, numerical modeling, Geophysics, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Space and Planetary Science
DOI: https://doi.org/10.1029/2021JB023726
ISSN: 2169-9313
Note: Funding Information: This study is part of the “InFocus: An Integrated Approach to Estimating Fault Slip Occurrence” project (grant number: DEEP.NL.2018.037) funded by NWO's (Dutch research council) DeepNL programme, which aims to improve the fundamental understanding of the dynamics of the deep subsurface under the influence of human interventions. M. Li designed and implemented the simulations, analyzed the data and wrote the paper. C. Pranger developed the code library and additional algorithms, and revised the paper. Y. van Dinther conceived and supervised the study, analyzed the results and revised the paper. C. Pranger was supported by the European Union's Horizon 2020 Research and Innovation Programme under the ERC StG TEAR, Grant No. 852992 and by Swiss National Science Foundation Grant 200021‐16988. We thank J. Jiang, B. Erickson and the SCEC SEAS benchmark project for the original numerical setup and the online platform. We thank our colleagues H. Diab‐Montero, M. Goudarzi, F. Vossepoel, A. Niemeijer for their inspiring discussions and comments on this work. We thank the two anonymous reviewers, Associate Editor and Editor Rachel Abercrombie for reviewing the manuscript. The code package is made accessible via repository https://bitbucket.org/cpranger/garnet . The models for this study can be found in the respective folders under https://bitbucket.org/cpranger/garnet/src/meng-eejit/experiments/comparison . Garnet Garnet Funding Information: This study is part of the “InFocus: An Integrated Approach to Estimating Fault Slip Occurrence” project (grant number: DEEP.NL.2018.037) funded by NWO's (Dutch research council) DeepNL programme, which aims to improve the fundamental understanding of the dynamics of the deep subsurface under the influence of human interventions. M. Li designed and implemented the simulations, analyzed the data and wrote the paper. C. Pranger developed the code library Garnet and additional algorithms, and revised the paper. Y. van Dinther conceived and supervised the study, analyzed the results and revised the paper. C. Pranger was supported by the European Union's Horizon 2020 Research and Innovation Programme under the ERC StG TEAR, Grant No. 852992 and by Swiss National Science Foundation Grant 200021-16988. We thank J. Jiang, B. Erickson and the SCEC SEAS benchmark project for the original numerical setup and the online platform. We thank our colleagues H. Diab-Montero, M. Goudarzi, F. Vossepoel, A. Niemeijer for their inspiring discussions and comments on this work. We thank the two anonymous reviewers, Associate Editor and Editor Rachel Abercrombie for reviewing the manuscript. The code package Garnet is made accessible via repository https://bitbucket.org/cpranger/garnet. The models for this study can be found in the respective folders under https://bitbucket.org/cpranger/garnet/src/meng-eejit/experiments/comparison. Publisher Copyright: © 2022. The Authors.
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