Explore the debate surrounding a potential dark matter discovery, highlighting skepticism and the need for rigorous ...

Smooth filaments stretching for many light-years, seen by the powerful space telescope, could indicate what the right "recipe" is for dark matter.

For years, we’ve believed that the universe is a vast, uniform expanse, with the same properties stretching across the cosmos ...

Using the SU 6 quark-model baryon-baryon interaction which was recently developed by the Kyoto-Niigata group, we calculate NN , ΛN and ΣN G -matrices in ordinary nuclear matter. Following the ...

We study the nonmesonic weak decay (NMWD) N -> nN of {}^{12}_{\Lambda } C hypernucleus induced by one nucleon N = n, p. The whole process is described by two coupled models: one for the primary NMWD ...

Researchers from the High Energy Nuclear Physics Laboratory at the RIKEN Pioneering Research Institute (PRI) in Japan and ...

If you want to explain what was and what is, you need particle physics. Because everything we see consists of molecules and atoms, and atoms in turn consist of atomic nuclei and electrons. The atomic ...

CERN’s Super Proton Synchrotron will turn 50 in 2026—and it has a resonant “ghost.” Using mathematics, physicists measured and modeled how these resonant lines intersect. Modeling a 3D shape over time ...

Experimental particle physics is the practical investigation of the fundamental components of matter and radiation. A crucial tool in the arsenal of the experimental particle physicist is the particle ...

As the name suggests, particle accelerators involve accelerating subatomic particles to incredibly high speeds and smashing them into tiny targets.