- Astrium is prime contractor for Swarm, ESA's mission to study the Earth's magnetic field
- Three Swarm satellites set to be launched from Plesetsk on 22 November 2013
- A “Journey to the Centre of the Earth” all the way from orbit
Pre-launch preparations for the Swarm satellite cluster – developed and built by Astrium, the world's second largest space company– are in full swing at Russia’s Plesetsk Cosmodrome, roughly 800 km northeast of Moscow. The three satellites, set to be launched on 22 November 2013 by Eurockot Launch Services using a single launcher, are ready to be mounted on the rocket’s upper stage.
Astrium is the European Space Agency's (ESA) prime contractor for the Swarm mission. The purpose of the Swarm mission is to analyse, in unprecedented detail, the geomagnetic field and its evolution. The findings will help improve our understanding of the Earth's inner workings and its interaction with the space environment.
The three identical Swarm satellites will be launched into a polar orbit at an altitude of 490 kilometres and will carry out the most accurate survey to date of the Earth's magnetic field and its changes. Swarm will, in a manner of speaking, follow in the footsteps of Jules Verne’s novel "Journey to the Centre of the Earth". Today, however, it is not always necessary to dig or drill to take a closer look at the composition and workings of the Earth’s interior. Thanks to the development of ‘satellite remote sensing’, Swarm can achieve this goal from orbit. The Earth’s gravitational and magnetic fields offer direct insights into the workings of its interior: from the variations these fields display at different times and places, scientists can draw conclusions about the dynamic processes taking place deep beneath the planet’s surface, in the outer core.
Extremely accurate, high-resolution readings of the geomagnetic field’s strength, orientation and fluctuations, complemented by precise navigation and velocity data, along with measurements of the electric field intensity, will provide the observational data required to distinguish between the various sources of the geomagnetic field and to explain them through models. Swarm’s high-resolution magnetic field measurements will also serve to map magnetised rock formations and sediments, as well as to help discover minerals and ore deposits.
In addition to the magnetic field, the Swarm trio will also study the upper atmosphere, which is partly ionised and electrically conductive. Fluctuations in the electron density can scatter radio waves and interfere with or jam navigation signals. The Swarm satellite fleet can detect areas showing such phenomena. Swarm can as such also contribute to enhancing the safety of air travel.
A further major challenge is the observation of ocean currents. The movement of electrically charged salt water generates a weak magnetic field. The Swarm mission should make it possible to observe large-area ocean currents over greater distances and periods. The dynamic of the oceans plays a major role in global climate. Swarm can make an important contribution to climate research by detecting patterns of global ocean circulation.
Astrium’s unique experience in building magnetic field research satellites
Astrium began developing its first satellite for magnetic field research in deep space – the ISEE-B – back in the late 1970s. This work has continued with the development of the four-satellite Cluster constellation which has been in orbit and operating since 2000. In the field of low Earth orbit satellites, the German Champ satellite, which collected data from 2000 to 2010, was built to an Astrium design. The Swarm constellation is now the logical next step down this path. In terms of technology, Swarm has benefited from the legacy of both the Champ satellite and Cryosat, the polar ice research satellite – both projects led by Astrium. When it comes to overall system design, individual subsystems and test ranges, Astrium’s satellite builders can draw on the wealth of experience they gained in these earlier projects.
Astrium and ESA’s Earth observation programme
Swarm is the 'Three-satellite-mission' in ESA's Earth observation programme. Its mission is to study the Earth’s magnetic field. In its role as industrial prime contractor, Astrium (Friedrichshafen) is responsible for developing and building the Swarm satellites. Astrium is also actively involved in developing other satellites for ESA’s Earth Explorer missions. The company is the prime contractor for the EarthCARE Earth observation satellite which is currently under construction and for the ADM-Aeolus wind mission. Furthermore, Astrium built the Cryosat-2 ice research satellite, which was launched on 8 April 2010. Astrium also supplied the platform for GOCE, which successfully ‘surfed’ and measured the Earth’s gravitational field since 17 March 2009. Astrium also developed and built the Miras payload for the SMOS mission for the observation of soil moisture and salinity over the oceans, which was launched on 2 November 2009.
Together, pioneering excellence
Astrium is the number one company in Europe for space technologies and the second in the world. It is the only global
company that covers the full range of civil and defence space systems, equipment and services.
In 2012, Astrium had a turnover over €5.8 billion and 18,000 employees worldwide.
Its three business units are: Astrium Space Transportation, the European prime contractor for launchers, orbital systems and space exploration; Astrium Satellites, a leading provider of satellite system solutions, including spacecraft, ground segments, payloads and equipments; Astrium Services, the Space services partner for critical missions, providing comprehensive fixed and mobile solutions covering secure and commercial satcoms and networks, and bespoke geo-information services, worldwide.
Astrium is a wholly owned subsidiary of EADS, a global leader in aerospace, defence and related services. In 2012, the Group – comprising Airbus, Astrium, Cassidian and Eurocopter – generated revenues of €56.5 billion and employed a workforce of over 140,000.