Despite its potential, electron beam propulsion faces significant challenges. Generating and maintaining a high-energy beam over interstellar distances requires unprecedented precision and stability.

An extraordinary event consistent with a neutrino with an estimated energy of about 220 PeV (220 x 1015 electron volts or 220 ...

An exotic new approach could shrink kilometer-scale machines into table-top devices.

Scientists have unlocked a revolutionary way to generate proton beams using high-powered lasers and a simple stream of water.

Enter relativistic electron beams made up of electrons ... by] time — so to get a given amount of energy from a beam, you either need very high power or you need to stay in the beam a long ...

Researchers at the U.S. Department of Energy’s (DOE) Argonne National Laboratory have discovered a highly sensitive sensor ...

Researchers at Argonne have discovered that superconducting nanowire photon detectors can also be used as highly accurate ...

The team made SNSPDs with different wire sizes and tested them with a beam of 120 GeV protons at Fermilab, which was the nearest facility equipped to carry out this experiment. These high-energy ...