Scientists discover low-mass microquasars can accelerate cosmic rays, reshaping theories on high-energy particle origins.

Our home planet is bombarded with particles from outer space all the time. And while we are mostly familiar with the rocky ...

Join six leading experts to find out everything we know about the subatomic universe. Take a deep dive into the building ...

In a major milestone for particle physics, scientists at CERN’s Large Hadron Collider (LHC) have successfully observed top quarks—one of the most elusive and short-lived fundamental ... Continue Readi ...

The expected frequency of scattering of particles of different mass, if they are subject only to Coulomb forces in collisions with nuclei of the atoms composing the emulsions, can be calculated.

For the first time, researchers have found evidence that even microquasars with low-mass stars can efficiently accelerate ...

Dirac fermions have mass and aren’t their own anti-particles ... in table-top experiments — whereas to discover subatomic particles we often need huge colliders,” Agarwala said.

Muon spin rotation (µSR) spectroscopy is a powerful technique that helps to study the behavior of materials at the atomic ...

A compact method of detecting neutrinos provides new tests of physics theories and could lead to new reactor-monitoring methods.

Researchers found for the first time evidence that even microquasars containing a low-mass star are efficient particle accelerators, which leads to a significant impact on the interpretation of the ...

How did they figure this out? Enter the Higgs boson. Not only can this subatomic particle interact with all sorts of ...

Researchers found for the first time evidence that even microquasars containing a low-mass star are efficient particle ...