Scientists hope to use a gamma ray telescope to observe a future supernova to help prove the existence of dark matter.

Physicists say the LHC could provide evidence to back up theoretical findings on how shapes of atomic nuclei change under ...

New Approach Merges Theoretical Fundamentals With Experimental Studies of the Proton’s Structure Advances in quantum ...

Nuclear theorists uncover the mass distribution within the pion and the proton through groundbreaking first-principle ...

Scientists have a problem with cosmic rays—they produce too many muons at the Earth's surface. Cascades of muons are ...

The nature of dark matter has puzzled astronomers since discovering that 85% of the universe's matter is invisible through ...

Gamma rays from axions could end the 90-year search for dark matter. UC Berkeley scientists propose gamma-ray telescopes to ...

The latest addition to the computational arsenal of Jefferson Lab is an extraordinary machine with the admittedly ordinary ...

One of the integral aspects for the success of the TS3 program is the identification and appointment of TS 3 graduate fellows on each CUNY campus. In collaboration with the campus directors, 4 ...

Among the key aspects of this study is the extension of the idea of “color” symmetry—a concept from quantum chromodynamics—applied to gravity. This approach could allow gravity and electromagnetism to ...

Seventy-six new particles have been discovered at the Large Hadron Collider (LHC) so far: the Higgs boson, 52 conventional ...

Scientists can determine the mass of subatomic particles that are built from quarks by looking at the particles' energy and ...