Space is unforgiving to electronics. Beyond Earth’s protective magnetic field, satellites are bombarded by cosmic rays and high-energy particles that slowly chip away at delicate circuits. Over time, ...

How can fission-powered propulsion help advance deep space exploration, specifically to the outer planets like Jupiter, Saturn, Uranus, and Neptune? This is what a recent study presented at the 56th ...

From the very first Cold War Geiger counters that were Sputnik and Explorer-1, to the autonomous robots of Mars, asteroid missions, telescopes, and the Voyager craft now outside our solar system, ...

Figure 1: Wafer of GaN point of Load Converters from the ELeGaNT development Over the past decade, the European Commission has invested significantly in space research in order to strengthen Europe’s ...

I’ve grown up with rockets that burn chemical fuel, but NASA’s next big leap in propulsion could make those engines look as dated as steam trains. By turning to nuclear power in space, the agency is ...

This engine won't be fueling interstellar missions, but still finds an unexpected way to use deep space energy to generate power. Reading time 3 minutes Deep space may provide hidden sources of energy ...

Why GaN components are highly resistant to radiation damage, such as total ionizing dose (TID), making GaN well-suited for harsh space environments. Why GaN devices remain vulnerable to single-event ...

Why Bhumjaithai’s Grip on Power Is More Fragile Than It Looks This screenshot from CCTV (China Central Television) shows China’s first moon rover Yutu, or Jade Rabbit, in an image taken by the camera ...