GOCE giving new insights into Earth's gravity (w/ Video)

Jun 29, 2010
The first global gravity model based on GOCE satellite data has been presented at ESA’s Living Planet Symposium. Based on only two months of data, from November and December 2009, it illustrates the excellent capability of GOCE to map tiny variations in Earth’s gravity field. Credits: GOCE High Level Processing Facility

(PhysOrg.com) -- The first global gravity model based on GOCE satellite data has been presented at ESA's Living Planet Symposium. ESA launched GOCE in March 2009 to map Earth's gravity with unprecedented accuracy and resolution.

The model, based on only two months of data, from November and December 2009, shows the excellent capability of the satellite to map tiny variations in Earth’s gravity.

"GOCE is delivering where it promised: in the fine spatial scales," GOCE Mission Manager Rune Floberghagen said.

"We have already been able to identify significant improvements in the high-resolution 'geoid', and the gravity model will improve as more data become available."

The geoid is the shape of an imaginary global ocean dictated by gravity in the absence of tides and currents. It is a crucial reference for accurately measuring , sea-level change and ice dynamics - all affected by .

Chairman of the GOCE Mission Advisory Group and Head of the Institute for Astronomical and Physical Geodesy at the Technische Universität München, Prof. Reiner Rummel, said: "The computed global looks very promising. We can already see that important new information will be obtained for large areas of South America, Africa, Himalaya, South-East Asia and Antarctica."

"Over continents, and in particular in regions poorly mapped with terrestrial or airborne techniques, we can already conclude that GOCE is changing our understanding of the gravity field," Dr Floberghagen added.

"Over major parts of the oceans, the situation is even clearer, as the marine gravity field at high spatial resolution is for the first time independently determined by an instrument of such quality."

The first geoid based on only two months of GOCE data, from November and December 2009, shows the excellent capability of the satellite to map tiny variations in Earth’s gravity. The geoid is the shape of an imaginary global ocean dictated by gravity in the absence of tides and currents. It is a crucial reference for accurately measuring ocean circulation, sea-level change and ice dynamics - all affected by climate change. Credits: ESA

New GOCE models are already yielding a wealth of new information that is useful for many domains of geosciences. GOCE’s final gravity map and geoid will be instrumental in advancing science and applications in a broad range of disciplines, ranging from geodesy, geophysics and surveying to oceanography and sea-level research.

"With each two-month cycle of data, the gravity model will become more detailed and accurate. I am convinced that the data will be of great interest to various disciplines of Earth sciences," Prof. Rummel said.

Excellent technical achievement

In order to achieve its very challenging mission objectives, the satellite was designed to orbit at a very low altitude, where the gravitational variations are stronger closer to Earth.

Since mid-September 2009, GOCE has been in its gravity-mapping orbit at a mere 254.9 km mean altitude - the lowest orbit sustained over a long period by any Earth observation satellite.

This video is not supported by your browser at this time.
The need for GOCE to fly in a low orbit means it has to compensate for the atmospheric drag it experiences at this exceptionally low altitude. The animation shows a close-up of the ion-propulsion assembly, which keeps the satellite in a smooth trajectory - free from all effects except those of gravity itself. Two winglets provide additional aerodynamic stability. Credits: ESA - AOES Medialab

The residual air at this low altitude causes the orbit of a standard satellite to decay very rapidly. GOCE, however, continuously nullifies the drag in real time by firing an ion thruster using xenon gas.

It ensures the gravity sensors are flying as though they are in pure freefall, so they pick up only gravity readings and not the disturbing effects from other forces.

To obtain clean gravity readings, there can be no disturbances from moving parts, so the entire satellite is a single extremely sensitive measuring device.

"The gravity measuring system is functioning extremely well. The system is actively compensating for the effects of atmospheric drag and delivering a continuous set of clean gravity readings," Dr Floberghagen said.

"This in itself is an excellent technical achievement. GOCE has proven to be a nearly perfect satellite for measuring gravity from space."

In May, ESA made available the first set of gradients and 'high-low satellite-to-satellite tracking'. These data are available to scientific and non-commercial users - and much more will come in the following months.

Explore further: Earth survived near-miss from 2012 solar storm: NASA

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User comments : 6

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omatumr
1.9 / 5 (8) Jun 29, 2010
Thanks for the very interesting report.

Similar maps of gravity variations for the Sun might be able to elucidate the depth and mass of the object(s) responsible for cycles of magnetic activity and sunspots at the solar surface.

With kind regards,
Oliver K. Manuel
barakn
3.7 / 5 (3) Jun 29, 2010
Why bother waiting for solar gravity variations when helioseismology has become such an advanced science? Oh, that's right, you're ignoring it because it doesn't support your preconceived notions.
Shootist
3 / 5 (6) Jun 29, 2010
Thanks for the very interesting report.

Similar maps of gravity variations for the Sun might be able to elucidate the depth and mass of the object(s) responsible for cycles of magnetic activity and sunspots at the solar surface.

With kind regards,
Oliver K. Manuel


Between ionized gas and plasma, what qualifies as an object? Solid, tangible . . . ?
MikeBenton
not rated yet Jun 30, 2010
Am I reading this right? The blue end of the spectrum indicates lower gravity and the red indicates higher gravity?
chewi
not rated yet Jun 30, 2010
I wish there was a scale on the chart. How much lower is the gravity south of India? Anyone?
barakn
1 / 5 (1) Jun 30, 2010
There is a color scale at the bottom of the chart. Its units are probably milligals, although it doesn't explicitly state that.