German researchers have adapted a technology originally designed for space telescopes to make detecting radioactive contamination in dismantled nuclear power plants faster, more precise, and far more ...

Radiation is one of the key challenges faced by astronauts living and working beyond the protective shield of Earth's atmosphere. Neutron radiation, which constitutes about 30% of ...

Scientists in Germany have developed AI-powered automated drones and robots that are capable of detecting radioactive waste in hazardous environments where human access is unsafe or impossible. The ...

If the diplomats of the great powers back up their scientists, the earth in a few years will be thinly dotted with observation stations, internationally controlled, packed with sensitive instruments, ...

Image: The microdosimeter instrument consists of small sensors connected to an electronics board, shown here without the casing. Spacesuits integrated with this technology can warn astronauts at the ...

Photograph of an optically trapped microparticle in high vacuum. The microparticle is visible as a white dot levitated between two lenses, which are used to focus and collect the invisible infrared ...

If you would like to learn more about the IAEA’s work, sign up for our weekly updates containing our most important news, multimedia and more. The IAEA has launched a four-year Coordinated Research ...

A concentration of one part per billion is like a pinch of salt in 10 tons of potato chips—and scientists can now find radioactive particles at concentrations millions of times smaller. In the Journal ...

FECYT – Spanish Foundation for Science and Technology: A team of researchers from the University of Zaragoza (UNIZAR) and the Institut d’Astrophysique Spatiale (IAS, in France) has developed a ...