Cross-diffusion waves resulting from multiscale, multiphysics instabilities: application to earthquakes

Cross-diffusion waves resulting from multiscale, multiphysics instabilities: application to earthquakes

<p>Theoretical approaches to earthquake instabilities propose shear-dominated source mechanisms. Here we take a fresh look at the role of possible volumetric instabilities preceding a shear instability. We investigate the phenomena that may prepare earthquake instabilities using the coupling o...

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Main Authors: K. Regenauer-Lieb, M. Hu, C. Schrank, X. Chen, S. P. Clavijo, U. Kelka, A. Karrech, O. Gaede, T. Blach, H. Roshan, A. B. Jacquey, P. Szymczak, Q. Sun
Format: Article
Language:English
Published: Copernicus Publications 2021-08-01
Series:Solid Earth
Online Access:https://se.copernicus.org/articles/12/1829/2021/se-12-1829-2021.pdf
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spelling doaj-2c7deadda86f4ce1848f083cd23d84ad2021-08-16T08:18:42ZengCopernicus PublicationsSolid Earth1869-95101869-95292021-08-01121829184910.5194/se-12-1829-2021Cross-diffusion waves resulting from multiscale, multiphysics instabilities: application to earthquakesK. Regenauer-Lieb0M. Hu1C. Schrank2X. Chen3S. P. Clavijo4U. Kelka5A. Karrech6O. Gaede7T. Blach8H. Roshan9A. B. Jacquey10P. Szymczak11Q. Sun12School of Minerals and Energy Resources Engineering, UNSW, Sydney, NSW 2052, AustraliaDepartment of Civil Engineering, The University of Hong Kong, Hong KongScience and Engineering Faculty, Queensland University of Technology, Brisbane, QLD 4001, AustraliaSchool of Minerals and Energy Resources Engineering, UNSW, Sydney, NSW 2052, AustraliaSchool of Minerals and Energy Resources Engineering, UNSW, Sydney, NSW 2052, AustraliaCSIRO, Deep Earth Imaging FSP, Kensington, AustraliaSchool of Engineering, University of Western Australia, Crawley, WA 6009, AustraliaScience and Engineering Faculty, Queensland University of Technology, Brisbane, QLD 4001, AustraliaSchool of Minerals and Energy Resources Engineering, UNSW, Sydney, NSW 2052, AustraliaSchool of Minerals and Energy Resources Engineering, UNSW, Sydney, NSW 2052, AustraliaDepartment of Civil and Environmental Engineering, Massachusetts Institute of Technology, Cambridge, MA, USAInstitute of Theoretical Physics, Faculty of Physics, University of Warsaw, Warsaw, PolandDepartment of Civil Engineering, The University of Hong Kong, Hong Kong<p>Theoretical approaches to earthquake instabilities propose shear-dominated source mechanisms. Here we take a fresh look at the role of possible volumetric instabilities preceding a shear instability. We investigate the phenomena that may prepare earthquake instabilities using the coupling of thermo-hydro-mechano-chemical reaction–diffusion equations in a THMC diffusion matrix. We show that the off-diagonal cross-diffusivities can give rise to a new class of waves known as cross-diffusion or quasi-soliton waves. Their unique property is that for critical conditions cross-diffusion waves can funnel wave energy into a stationary wave focus from large to small scale. We show that the rich solution space of the reaction–cross-diffusion approach to earthquake instabilities can recover classical Turing instabilities (periodic in space instabilities), Hopf bifurcations (spring-slider-like earthquake models), and a new class of quasi-soliton waves. Only the quasi-soliton waves can lead to extreme focussing of the wave energy into short-wavelength instabilities of short duration. The equivalent extreme event in ocean waves and optical fibres leads to the appearance of “rogue waves” and high energy pulses of light in photonics. In the context of hydromechanical coupling, a rogue wave would appear as a sudden fluid pressure spike. This spike is likely to cause unstable slip on a pre-existing (near-critically stressed) fault acting as a trigger for the ultimate (shear) seismic moment release.</p>https://se.copernicus.org/articles/12/1829/2021/se-12-1829-2021.pdf
collection DOAJ
language English
format Article
sources DOAJ
author K. Regenauer-Lieb
M. Hu
C. Schrank
X. Chen
S. P. Clavijo
U. Kelka
A. Karrech
O. Gaede
T. Blach
H. Roshan
A. B. Jacquey
P. Szymczak
Q. Sun
spellingShingle K. Regenauer-Lieb
M. Hu
C. Schrank
X. Chen
S. P. Clavijo
U. Kelka
A. Karrech
O. Gaede
T. Blach
H. Roshan
A. B. Jacquey
P. Szymczak
Q. Sun
Cross-diffusion waves resulting from multiscale, multiphysics instabilities: application to earthquakes
Solid Earth
author_facet K. Regenauer-Lieb
M. Hu
C. Schrank
X. Chen
S. P. Clavijo
U. Kelka
A. Karrech
O. Gaede
T. Blach
H. Roshan
A. B. Jacquey
P. Szymczak
Q. Sun
author_sort K. Regenauer-Lieb
title Cross-diffusion waves resulting from multiscale, multiphysics instabilities: application to earthquakes
title_short Cross-diffusion waves resulting from multiscale, multiphysics instabilities: application to earthquakes
title_full Cross-diffusion waves resulting from multiscale, multiphysics instabilities: application to earthquakes
title_fullStr Cross-diffusion waves resulting from multiscale, multiphysics instabilities: application to earthquakes
title_full_unstemmed Cross-diffusion waves resulting from multiscale, multiphysics instabilities: application to earthquakes
title_sort cross-diffusion waves resulting from multiscale, multiphysics instabilities: application to earthquakes
publisher Copernicus Publications
series Solid Earth
issn 1869-9510
1869-9529
publishDate 2021-08-01
description <p>Theoretical approaches to earthquake instabilities propose shear-dominated source mechanisms. Here we take a fresh look at the role of possible volumetric instabilities preceding a shear instability. We investigate the phenomena that may prepare earthquake instabilities using the coupling of thermo-hydro-mechano-chemical reaction–diffusion equations in a THMC diffusion matrix. We show that the off-diagonal cross-diffusivities can give rise to a new class of waves known as cross-diffusion or quasi-soliton waves. Their unique property is that for critical conditions cross-diffusion waves can funnel wave energy into a stationary wave focus from large to small scale. We show that the rich solution space of the reaction–cross-diffusion approach to earthquake instabilities can recover classical Turing instabilities (periodic in space instabilities), Hopf bifurcations (spring-slider-like earthquake models), and a new class of quasi-soliton waves. Only the quasi-soliton waves can lead to extreme focussing of the wave energy into short-wavelength instabilities of short duration. The equivalent extreme event in ocean waves and optical fibres leads to the appearance of “rogue waves” and high energy pulses of light in photonics. In the context of hydromechanical coupling, a rogue wave would appear as a sudden fluid pressure spike. This spike is likely to cause unstable slip on a pre-existing (near-critically stressed) fault acting as a trigger for the ultimate (shear) seismic moment release.</p>
url https://se.copernicus.org/articles/12/1829/2021/se-12-1829-2021.pdf
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