Add to ORKGThe earth's imperfectly elastic response to body and loading tidal forces is discussed using complex Love numbers and complex mass loading coefficients. Exact analytical expressions were derived relating the energy dissipation within an inhomogeneous, compressible solid earth to the surface values of these complex characteristic numbers, thus relating the global dissipation function Q to the phase shifts in the potential, gravity, tilt, strain and displacement tides. Integration of a global ocean tidal model shows that energy dissipated in the solid earth due to ocean loading is at least 10% of that dissipated in the body tides
This is an exploration of dynamic tides on elastic bodies. The body is thought of as a dynamical sys...
The gravitational potential of celestial bodies, for example the Moon and the Sun, generates oscilla...
The fundamental question of geophysics is simple: What is inside the Earth? Because we cannot physic...
Laplace’s Tidal Equations (LTE) are modified to allow for the yielding of the solid Earth to tide ge...
Abstract- Over 300 earthquakes are studied to determine whether there is any triggering by tidal for...
The complete tidal response of an elliptical, rotating, elastic Earth is found to contain small disp...
Mathematical and programming techniques to numerically calculate Earth response to global semidiurna...
The discrepancy between seismic and tidal effective Q values can be attributed to dissipation in the...
Context. Earth-like planets have viscoelastic mantles, whereas giant planets may have visc...
FLEXING of ice shelves may dissipate enough tidal energy to have a significant effect on the Moon's ...
International audienceThe prescriptions used today in celestial mechanics to describe dynamical proc...
We examine strain energy dissipation of Earth's normal modes and body tides in order to compare thes...
An important goal of a tidal theory is the improvement of nutational amplitude and of the parameters...
We consider the elasto-gravitational deformation of an earth model with fluid parts (core, ocean, at...
Surface mass loads come in many different varieties, including the oceans, atmosphere, rivers, lakes...
This is an exploration of dynamic tides on elastic bodies. The body is thought of as a dynamical sys...
The gravitational potential of celestial bodies, for example the Moon and the Sun, generates oscilla...
The fundamental question of geophysics is simple: What is inside the Earth? Because we cannot physic...
Laplace’s Tidal Equations (LTE) are modified to allow for the yielding of the solid Earth to tide ge...
Abstract- Over 300 earthquakes are studied to determine whether there is any triggering by tidal for...
The complete tidal response of an elliptical, rotating, elastic Earth is found to contain small disp...
Mathematical and programming techniques to numerically calculate Earth response to global semidiurna...
The discrepancy between seismic and tidal effective Q values can be attributed to dissipation in the...
Context. Earth-like planets have viscoelastic mantles, whereas giant planets may have visc...
FLEXING of ice shelves may dissipate enough tidal energy to have a significant effect on the Moon's ...
International audienceThe prescriptions used today in celestial mechanics to describe dynamical proc...
We examine strain energy dissipation of Earth's normal modes and body tides in order to compare thes...
An important goal of a tidal theory is the improvement of nutational amplitude and of the parameters...
We consider the elasto-gravitational deformation of an earth model with fluid parts (core, ocean, at...
Surface mass loads come in many different varieties, including the oceans, atmosphere, rivers, lakes...
This is an exploration of dynamic tides on elastic bodies. The body is thought of as a dynamical sys...
The gravitational potential of celestial bodies, for example the Moon and the Sun, generates oscilla...
The fundamental question of geophysics is simple: What is inside the Earth? Because we cannot physic...