The BASE collaboration within the Antimatter Factory at CERN is having an exciting year. Not only are they getting ready to transport antimatter around the facility on the back of a van, but they have ...

The ASACUSA experiment at CERN has reported new precision measurement of the mass of the antiproton relative to that of the electron. CERN/Sophia Bennett One of the biggest unanswered questions of ...

"Improved measurements of antiproton's magnetic moment deepen mystery of baryonic asymmetry." ScienceDaily. www.sciencedaily.com / releases / 2017 / 01 / 170118083356.htm (accessed April 20, 2026).

Did you know that the camera sensor in your smartphone could help unlock the secrets of antimatter? The AEgIS collaboration, led by Professor Christoph Hugenschmidt's team from the research neutron ...

Fast chill The “Maxwell’s demon cooling double trap” developed by the BASE collaboration can cool antiprotons very quickly to the extremely cold temperatures necessary for high-precision measurements.

The search goes on. No difference in protons and antiprotons have yet been found which would help to potentially explain the existence of matter in our universe. However, physicists in the BASE ...

Researchers working on the Antihydrogen trap (ATRAP) experiment at CERN have made the first single-particle measurement of the magnetic moment of the antiproton. Achieved with an uncertainty of 4.4 ...

A new super-precise measurement from the RIKEN-led BASE collaboration, which also includes researchers from the University of Tokyo, Japan, the Max Planck Institute for nuclear physics, Heidelberg, ...

Fermilab’s Antiproton Source has long produced the antimatter that makes Fermilab’s particle collisions possible. While the Antiproton Source will shut down along with the Tevatron on Sept. 30, there ...

Scientists in the Japanese-European ASACUSA experiment at CERN reported today that they have measured the mass of the antiproton with nearly the same accuracy as scientists have measured the mass of ...

In Wednesday’s issue of Nature, a new paper describes a potentially useful way of measuring the interactions between normal matter and exotic particles, like antiprotons and unstable items like kaons ...