We are proud to present a new introductory film, in which the Royal Belgian Institute is being presented in all its facets. Discover the many fields of research and societal challenges in which the Institute is active.
Impact of increased cosmic rays, UV radiation and fragility of ozone shield on the biosphere and our health.
Consequences of increasing biologically active UV and space radiations, with significant implication for human health, plants and ecosystems, like cancers and cellular dysfunctions.
September 2 marked the two-year anniversary of PICASSO’s launch, the first CubeSat mission of BIRA-IASB.
The Space Pole in Uccle opens its doors to the public on September 24 and 25, 2022.
Within the project ‘A Touch of Space weather”, BIRA-IASB is organising a jingle contest that addresses blind and visually impaired students from secondary schools.
A new book on the magnetospheres in our solar system has been published by Wiley. It has been co-edited by our BIRA-IASB colleague Dr. Romain Maggiolo. Based on 13 years experience in the “Magnetosphere” research team within the “Space Physics” department, he was approached to be the main editor of this book.
BIRA-IASB is preparing a new space instrument, 3DEES, in consortium with the Université Catholique de Louvain and QinetiQ Space, to study the Earth's space radiation environment on board ESA's PROBA-3 satellite.
The four European Cluster spacecraft celebrate their 20th birthday this year. We take a look at the scientific discoveries BIRA-IASB made with the data gathered by the Cluster mission.
Two Belgian CubeSats, PICASSO (from the Royal Belgian Institute for Space Aeronomy) and SIMBA (from the Royal Meteorological Institute) were launched simultaneously with about 50 tiny satellites, on board Europe’s inaugural Vega SSMS flight.
Belgian scientists can detect meteors and meteorites falling in or around Belgium. The Museum of Natural Science in Brussels has six meteorites that fell in Belgium.
A team of BIRA-IASB scientists and an engineer travelled to Norway in order to test two instruments capable of detecting the polarisation of the Aurora light.
Emmanuel Dekemper's personal account of the BIRA-IASB team's mission to Norway. In February, a few scientists and an engineer travelled above the Arctic circle in order to test ASPA and PLIP, instruments capable of studying light polarisation.
This discovery explains why comets seem to contain so little nitrogen: the nitrogen is trapped in these substances that are difficult to detect from Earth.
The ‘Comet Interceptor’ has been selected as ESA’s new fast-class mission in its Cosmic Vision Programme. Comprising three spacecraft, it will be the first to visit a truly pristine comet.