Scientists have detected changes in cosmic rays that could reveal the true origin of these extreme particles in the universe.

Scientists spent decades chasing signs of a mysterious new force hidden inside the muon, one of nature’s strangest particles.

TAE Technologies, a leading US private fusion energy firm, and the United Kingdom's national fusion laboratory, the UK Atomic ...

A group of Russian scientists, including researchers from the Institute of Nuclear Physics, has proposed using radiation to ...

Physicists at CERN’s Large Hadron Collider have uncovered new hints that certain particle decays may not behave as the ...

High-NA EUV extends resolution by increasing optical numerical aperture, but at the cost of dramatically more complex and expensive optical systems. The industry is therefore confronting a dual ...

Ultraheavy particle theory: New research indicates some ultrahigh-energy cosmic rays may be atomic nuclei heavier than iron, enabling them to travel vast cosmic distances. Historic particle events: ...

A new study, published in the journal Physical Review Letters, suggests that some of the highest-energy cosmic rays could ...

"The properties of a decay of an isotope of the 117th element and its daughter products … together with the isotopes of elements 112-116 and 118 synthesized in Dubna before, are ...

There may be an ultraheavy explanation for the mystery surrounding the origins of the highest-energy particles ever observed. Ultrahigh-energy cosmic rays are particles from space that strike Earth ...

“The method of high-energy electron diffraction makes it possible to combine the advantages of electron diffraction – such as significantly reduced radiation damage effects and improved visibility of ...

Artist’s conception of the mystery of the magnetic moment of the muon—a sub-atomic particle similar to, but heavier than, an electron (represented by the Greek letter mu). More than half a century of ...