We present a new normal-mode formalism for computing the response of an aspherical, self-gravitating, linear viscoelastic earth model to an arbitrary surface load. The formalism makes use of recent advances in the theory of the Earth’s free oscillations, and is based upon an eigenfunction expansion methodology, rather than the tradi-tional Love-number approach to surface-loading problems. We introduce a surface-load representation theorem analogous to Betti’s reciprocity relation in seismology. Taking advantage of this theorem and the biorthogonality of the viscoelastic modes, we determine the complete response to a surface load in the form of a Green’s function.We also demonstrate that each viscoelastic mode has its own unique energy parti...
The theory of the Earth's normal modes provides a framework for the calculation of theoretical seism...
The Earth response (deformation and gravity) to tides or to surface loads is traditionally computed ...
The post-seismic response of a viscoelastic Earth to a seismic dislocation can be computed analytica...
In the study of the postglacial isostatic readjustment process, deformation of the Earth is usually ...
In Chapter 2, we consider the hydrostatic equilibrium figure of a rotating earth model with arbitrar...
The post-glacial or post-seismic relaxation of a Maxwell viscoelastic earth, 1-D or slightly lateral...
Analytical solutions to a prestressed, multilayered, elastic half-space subjected to general surface...
The post-glacial or post-seismic relaxation of a Maxwell viscoelastic earth, 1-D or slightly lateral...
Within the normal mode relaxation theory, we thoroughly analyze and compare the exact compressible a...
Summary. Analytical solutions are presented for the deformation of a three-layered plane earth with ...
We present the new capabilities offered by the application of the Post-Widder Laplace inversion form...
A spherically symmetric Earth model with viscoelastic rheology is used to study the postseismic rebo...
The postseismic response of a viscoelastic Earth can be computed analytically with a normal-mode a...
The postseismic response of a viscoelastic Earth can be computed analytically with a normal-mode ap...
The theory of the Earth's normal modes provides a framework for the calculation of theoretical seism...
The Earth response (deformation and gravity) to tides or to surface loads is traditionally computed ...
The post-seismic response of a viscoelastic Earth to a seismic dislocation can be computed analytica...
In the study of the postglacial isostatic readjustment process, deformation of the Earth is usually ...
In Chapter 2, we consider the hydrostatic equilibrium figure of a rotating earth model with arbitrar...
The post-glacial or post-seismic relaxation of a Maxwell viscoelastic earth, 1-D or slightly lateral...
Analytical solutions to a prestressed, multilayered, elastic half-space subjected to general surface...
The post-glacial or post-seismic relaxation of a Maxwell viscoelastic earth, 1-D or slightly lateral...
Within the normal mode relaxation theory, we thoroughly analyze and compare the exact compressible a...
Summary. Analytical solutions are presented for the deformation of a three-layered plane earth with ...
We present the new capabilities offered by the application of the Post-Widder Laplace inversion form...
A spherically symmetric Earth model with viscoelastic rheology is used to study the postseismic rebo...
The postseismic response of a viscoelastic Earth can be computed analytically with a normal-mode a...
The postseismic response of a viscoelastic Earth can be computed analytically with a normal-mode ap...
The theory of the Earth's normal modes provides a framework for the calculation of theoretical seism...
The Earth response (deformation and gravity) to tides or to surface loads is traditionally computed ...
The post-seismic response of a viscoelastic Earth to a seismic dislocation can be computed analytica...