A newly developed optical device promises to significantly enhance LIGO's ability to detect gravitational waves by boosting laser power.

When neutron stars collide, they create a powerful gravitational-wave signal, with the post-merger remnant ringing like a ...

Neutron stars, the collapsed remnants of massive stars, hold the densest matter in the universe. These cosmic objects are ...

The new material could be key to finally building a successful fusion reactor.

Discover the challenges and breakthroughs in nuclear fusion, the clean energy source of the future. Learn about the science ...

Fusion technology is a long way from powering a grid — if it ever will. Dozens of fusion startups have launched anyway.

"Most of the external layers of a massive star are removed during the supernova, but some material falls back, making the neutron star spin faster." ...

For decades, fusion researchers struggled with neutron isotropy, a key indicator of scalable plasma stability. Zap Energy’s ...

The study of ‘starquakes’ (like earthquakes, but in stars) promises to give us important new insights into the properties of ...

The new era of nuclear power generation greater than the force of the Sun has arrived and is ready for deployment. For the ...

The new era of nuclear power generation greater than the force of the Sun has arrived and is ready for deployment. For the first-time ever, a sustained synthetic quasar has been born on Earth to perma ...

The market implications of Arc Reactor™ - cold nuclear fusion transforms businesses across all industries. This new technological discovery optimizes operations, reduces energy costs, and establishes ...