International audienceSUMMARY Long term deformations strongly depend on the earth model and its rheological parameters, and in particular its viscosity. We give the general theory and the numerical scheme to compute them for any spherically non-rotating isotropic earth model with linear rheology, either elastic or viscoelastic. Although the Laplace transform (LT) is classically used to compute viscoelastic deformation, we choose here instead, to implement the integration with the Fourier transform (FT) in order to take advantage of the fast FT algorithm and avoid some of the LT mathematical difficulties. We describe the methodology to calculate deformations induced by several geophysical signals regardless of whether they are periodic or no...
In this study, we examine the effect of transient mantle creep on the prediction of glacial isostati...
International audienceIssues related to long timescale instability in the Earth's rotation, named Tr...
We infer the radial viscosity structure of the Earth's mantle from observations of long-wavelength g...
Supplemental file(s) description: Animation of Model Manifold, figure 3.2aThe rocky interior of the ...
Post-seismic deformation and glacial isostatic adjustment are two processes by which the Earth defor...
The redistribution of past and present ice and ocean loading on Earth's surface causes solid Earth d...
A spectral method is employed to study the response to surface loads of a Maxwell Earth including la...
International audienceThe computation of the Love numbers (LNs) for a spherically symmetric self-gra...
On time scales from decades to centuries, continental cryospheric forcing in response to climate cha...
We present a method for calculating the derivatives of measurements of glacial isostatic adjustment ...
The computation of the Love numbers (LNs) for a spherically symmetric self-gravitating viscoelastic ...
The post-glacial or post-seismic relaxation of a Maxwell viscoelastic earth, 1-D or slightly lateral...
In this study, we examine the effect of transient mantle creep on the prediction of glacial i...
Observations of glacial isostatic adjustment (GIA), the viscoelastic relaxation of the Earth induced...
In this study, we examine the effect of transient mantle creep on the prediction of glacial isostati...
International audienceIssues related to long timescale instability in the Earth's rotation, named Tr...
We infer the radial viscosity structure of the Earth's mantle from observations of long-wavelength g...
Supplemental file(s) description: Animation of Model Manifold, figure 3.2aThe rocky interior of the ...
Post-seismic deformation and glacial isostatic adjustment are two processes by which the Earth defor...
The redistribution of past and present ice and ocean loading on Earth's surface causes solid Earth d...
A spectral method is employed to study the response to surface loads of a Maxwell Earth including la...
International audienceThe computation of the Love numbers (LNs) for a spherically symmetric self-gra...
On time scales from decades to centuries, continental cryospheric forcing in response to climate cha...
We present a method for calculating the derivatives of measurements of glacial isostatic adjustment ...
The computation of the Love numbers (LNs) for a spherically symmetric self-gravitating viscoelastic ...
The post-glacial or post-seismic relaxation of a Maxwell viscoelastic earth, 1-D or slightly lateral...
In this study, we examine the effect of transient mantle creep on the prediction of glacial i...
Observations of glacial isostatic adjustment (GIA), the viscoelastic relaxation of the Earth induced...
In this study, we examine the effect of transient mantle creep on the prediction of glacial isostati...
International audienceIssues related to long timescale instability in the Earth's rotation, named Tr...
We infer the radial viscosity structure of the Earth's mantle from observations of long-wavelength g...