Researchers have been working for decades to understand the architecture of the subatomic world. One of the knottier questions has been where the proton gets its intrinsic angular momentum, otherwise ...

Quantum calculations amount to sophisticated estimates. But in 1931, Hans Bethe intuited precisely how a chain of particles ...

Neutrinos, often referred to as ‘ghost particles,’ are nearly massless and can travel through matter without significant ...

Q3 2025 Earnings Conference Call February 6, 2025 1:30 AM ET. Company Participants. Koichi Yatsuda – Global Head-Investor Relations Toshiki ...

The researchers state that the discovery of this extremely high-energy neutrino is the first concrete proof that the universe produces neutrinos at these incredible energy levels.

Traditional black holes, as predicted by Albert Einstein's theory of General Relativity, contain what are known as ...

In May, a new achievement in the field of quantum science was published in the journal Science, with Chinese scientists ...

New details have been discovered about M87*, the first black hole ever photographed, revealing its plasma, its brightness and ...

A huge detector in the Mediterranean Sea spotted the most energetic neutrino from space to date. The particle could shed light on the universe’s most extreme phenomena.

Research shows that UiO-66 enhances tin halide perovskite solar cells' efficiency and stability, offering a solution to ...

Dark matter is more than five times as abundant as all the visible matter in the universe. So why can't we see any of it?

Black holes and soccer balls don't have much in common, but if black holes are curved when kicked, it might say something deep about the cosmos.