Let’s start with the Lawrence Livermore National Laboratory’s National Ignition Facility (NIF)—arguably the largest, most ...

New research reveals that Earth’s solid inner core is actually in a superionic state, where carbon atoms flow freely through a solid iron lattice. This unusual behavior makes the core soft, matching ...

A new warp-drive study proposes a novel segmented design that brings hyper-fast space travel one step closer to becoming a ...

Astronomers watched as a black hole whipped up cosmic winds that shot material into space at 37,280 miles per second (60,000 ...

Dark matter is special in that it doesn't emit, absorb or interact with light, so science had to find a more creative way to ...

With contributions from Brown faculty and students, the LUX-ZEPLIN experiment analyzed the largest dataset ever collected by ...

An interview with Marumi Kado highlights the challenges and opportunities of the Future Circular Collider in particle physics ...

Knotted structures once imagined by Lord Kelvin may actually have shaped the universe’s earliest moments, according to new ...

A joint effort between two of the world’s largest neutrino experiments has brought scientists closer to understanding how the ...

Odd radio waves emanating from the ice don’t fit our model of particle behavior. Could they be a sign of dark matter?

New research shows how government planners can more accurately account for the cost uncertainties that come with switching ...

In the leading model of cosmology, most of the universe is invisible: a combined 95% is made of dark matter and dark energy.