Shock waves from tiny black holes in the early universe could explain how antimatter became so rare while matter is common.

Part of testing is pushing components way past their limits, so it's entirely possible that the team predicted a fiery end.

The experiment also showed that tuning the light beam controlled the propulsion—the stronger the laser, the greater the ...

Quantum physicists at the Australian National University (ANU) have achieved a major milestone by directly observing atoms ...

A bizarre, record-breaking neutrino detected in 2023 may have originated from an exploding primordial black hole—a relic from ...

Cell cultures—single layers of cells grown in a small dish—have enabled researchers to study biological growth, develop or ...

For decades, scientists have tried and failed to explain how the force that binds the heart of atoms together really works.

The early universe is absolutely so far outside our understanding of how the world works it's hard to describe in words. Back ...

A treasure trove of fossils from China shows that the Cambrian explosion may have been less explosive than scientists once ...

If NASA's colossal new moon rocket, slated to launch with astronauts for the first time as soon as tomorrow, explodes on the ...

An underwater observatory recently detected a startlingly energetic cosmic neutrino. One possible cause involves a phenomenon that so far exists only in theory. By Dennis Overbye On Feb. 13, 2023, a ...

Researchers have visualized atoms in motion just before a radiation-driven decay process occurs, revealing a surprisingly ...