50°47′48″N4°21′25″E / 50.796785°N 4.356998°E / 50.796785; 4.356998The Royal Belgian Institute for Space Aeronomy (BIRA-IASB) (Dutch: Koninklijk Belgisch Instituut voor Ruimte-Aeronomie - BIRA, French: Institut royal d'aéronomie spatiale de Belgique - IASB) is a Belgian federal scientific research institute. Created in 1964, its main tasks are research and public service in space aeronomy, which is the physics and chemistry of the atmosphere of the Earth and other planets, and of outer space. The scientists rely on ground-based, balloon-, air- or space-borne instruments and computer models.
History
On 25 November 1964 the Aeronomical Service is separated from the Royal Meteorological Institute (RMI) and lives on as a scientific institution of the state with the name: Belgian Institute for Space Aeronomy (BIRA-IASB). In 2014, BIRA-IASB celebrates its 50th anniversary and gains its royal statute. On this occasion, the Institute gathered 50 important events in its history.
The institute has as main competence, tasks of public service and research in the domain of Space Aeronomy. BIRA-IASB mostly works with data acquired via rockets and artificial satellites for research to the physical and chemical structure of the higher atmosphere and extraterrestrial space. The first director was M. Nicolet. As of 2021[update] the director general ad interim is Martine De Mazière.[1]
Activities
BIRA-IASB
focuses on Chemistry & Physics of Atmospheres and Space Plasma Physics
designs and builds instruments to monitor atmospheres and the space environment
The Sun fills interplanetary space with plasma, a gas of charged particles, in the form of a constant solar wind. Also the Earth's outer atmosphere, the magnetosphere, is filled with plasma, just like the environments of many other Solar System objects. The Institute has built a strong theory and modeling programme, deeply rooted in observations provided by ESA's space missions, Ulysses, Cluster and Rosetta spacecraft.
BIRA-IASB has extensive expertise in:
The dynamic behavior of the outer magnetospheric boundary in response to the variable solar wind, which controls the energy input from the solar wind into the magnetosphere.
The interaction between the outer magnetosphere and the corotating plasma in the inner magnetosphere.
The coupling between the magnetosphere and the ionosphere as manifested by the aurora or polar lights
These modeling efforts help to mitigate the empiricism still prevailing in present-day space weather forecasting.
Services
BIRA-IASB provides products and services that fulfill needs of the user community.
Assessments of the state of the atmosphere to support policy makers
Accumulated ionising radiation dose predictions for the space industry
Services related to the Earth's atmosphere include stratospheric ozone forecasting, air quality global analysis and prediction, volcanic emission warnings, satellite data validation and tropospheric emission monitoring. These services will be integrated in international initiatives like the European led GMES (Global Monitoring for Environment and Security).
In the domain of Space Weather BIRA-IASB focuses on ionising space radiation and its effects. These services are exploited in the context of the Belgian Solar-Terrestrial Centre of Excellence. Tools, methods and procedures are set up to deliver these services to the user community (European Space Weather portal).
BIRA-IASB, through the Belgian User Support and Operation Centre (BUSOC), provides support and infrastructure to scientific teams to prepare, develop and operate space experiments. BUSOC is the operations center for the Solar Monitoring Observatory on board the International Space Station and the scientific mission center for the CNES solar observation satellite PICARD.
