The NASA/DLR satellite gravity mission GRACE, launched in March, 2002, will map the Earth's gravity field at scales of a few hundred km and greater, every 30 days for five years. These data can be used to solve for time-variations in the gravity field with unprecedented accuracy and resolution. One of the many scientific problems that can be addressed with these time-variable gravity estimates, is post glacial rebound (PGR): the viscous adjustment of the solid Earth in response to the deglaciation of the Earth's surface following the last ice age. In this paper we examine the expected sensitivity of the GRACE measurements to the PGR signal, and explore the accuracy with which the PGR signal can be separated from other secular gravity signal...
This project is dealing with the estimation of present-day Earth’s mass transport and its redistribu...
The GRACE (Gravity Recovery And Climate Experiment) mission allows inference of mass variations on, ...
The new generation of space gravity data, from GRACE and the incoming GOCE, rejuvenated our interest...
The Gravity Recovery and Climate Experiment (GRACE) satellite mission was launched in March 2002 and...
Redistribution of mass over the Earth and within the mantle changes the gravity field whose variatio...
The time-variable gravity field shows the effects of large present-day mass variations associated wi...
The GRACE mission has provided unprecedented insights into mass redistribution processes in the Eart...
Time-variable gravity measurements from the Gravity Recovery and Climate Experiment (GRACE) and GRAC...
Continuous observations of temporal variations in the Earth's gravity field have recently become ava...
Measurements of the spatio-temporal variations of Earth’s gravity field recovered from the Gravity R...
This progress report summarizes the research work conducted under NASA's Solid Earth and Natural Haz...
Continuous observations of temporal variations in the Earth\u27s gravity field have recently become ...
The effect of glacial isostatic adjustment (GIA) on the shape and gravity of the Earth is usually de...
We perform an inversion of gravity fields from the Gravity Recovery and Climate Experiment (GRACE) (...
This project is dealing with the estimation of present-day Earth’s mass transport and its redistribu...
The GRACE (Gravity Recovery And Climate Experiment) mission allows inference of mass variations on, ...
The new generation of space gravity data, from GRACE and the incoming GOCE, rejuvenated our interest...
The Gravity Recovery and Climate Experiment (GRACE) satellite mission was launched in March 2002 and...
Redistribution of mass over the Earth and within the mantle changes the gravity field whose variatio...
The time-variable gravity field shows the effects of large present-day mass variations associated wi...
The GRACE mission has provided unprecedented insights into mass redistribution processes in the Eart...
Time-variable gravity measurements from the Gravity Recovery and Climate Experiment (GRACE) and GRAC...
Continuous observations of temporal variations in the Earth's gravity field have recently become ava...
Measurements of the spatio-temporal variations of Earth’s gravity field recovered from the Gravity R...
This progress report summarizes the research work conducted under NASA's Solid Earth and Natural Haz...
Continuous observations of temporal variations in the Earth\u27s gravity field have recently become ...
The effect of glacial isostatic adjustment (GIA) on the shape and gravity of the Earth is usually de...
We perform an inversion of gravity fields from the Gravity Recovery and Climate Experiment (GRACE) (...
This project is dealing with the estimation of present-day Earth’s mass transport and its redistribu...
The GRACE (Gravity Recovery And Climate Experiment) mission allows inference of mass variations on, ...
The new generation of space gravity data, from GRACE and the incoming GOCE, rejuvenated our interest...