"History shows us that whenever you do open a new 'energy window,' you never really know what you're going to find. It's completely unexplored." ...

Neutrinos are very mysterious particles,” says Damien Dornic, one of the co-authors of a new paper published February 12 in ...

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

Achieving practical interstellar travel requires overcoming the immense challenge of reaching extraordinary velocities. To send a spacecraft, weighing roughly 1,000 kilograms, to a neighboring star ...

Detecting high-energy particles is essential for exploring the fundamental structure of matter. Particle accelerators propel ...

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

The most powerful neutrino on record, with help from a deep-sea sensor, has provided the first evidence for high-energy ...

These ultra-bright high-energy X-rays can be used to image and ... "Your dentist's machine creates an electron beam that is crashed into a heavy metal plate. The electrons in the beam interact ...

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

In 2024, seven vehicles in western China each transmitted a high-powered microwave beam that converged precisely in both time ...

The electron beam energy is efficiently converted into multi-megaelectronvolt Bremsstrahlung photons when it interacts with a solid target of high atomic number, providing a submillimetre pulsed ...