Understanding gravity's influence on qubits reveals challenges in decoherence and potential for new quantum technologies and precision sensing applications.

Life on the International Space Station isn't always easy. There's not a lot of room, no showers, and no laundry. Photos show ...

Levitating and spinning diamonds might sound like science fiction, but they’re now part of a bold effort to study the ...

Since then, experiments at the LHC have focused on better understanding how the newfound Higgs fits into the Standard Model, particle physicists’ best theoretical description of matter and ...

Researchers have developed the most powerful ultrashort electron beam to date using a novel laser shaping technique. This unlocks new experiments in fields from astrophysics to quantum chemistry.

While the company behind the drive, Exodus Propulsion Technologies, says that the drive can achieve a thrust to counteract Earth’s gravity, such a claim still needs independent verification and ...

One such state, first proposed by Nobel laureate Eugene Wigner, is the Wigner crystal—a structured electron arrangement caused by their mutual repulsion. Although widely theorized, experimental ...

The B61-12 nuclear gravity bomb achieved full system production recently and is now fully operational. The nuclear bomb is one of the most versatile munitions of its type in the world, and a ...

From its unique vantage point on the International Space Station, NASA’s Atmospheric Waves Experiment (AWE) looks directly down into Earth’s atmosphere to study how gravity waves travel through the ...