High energy proton-proton scattering is a cornerstone of modern particle physics, providing fundamental insights into the strong interaction and the structure of matter. At energies reached in ...

Top: protons striking a nucleus deflect from their original path depending on velocity, location of impact, and force from the protons inside the nucleus. Bottom: elastic proton scattering cross ...

Sharper proton beams for safer and more effective treatment When used as a membrane to split molecular hydrogen ions (H 2+) into individual protons, UC-MAC produced proton beams that were ...

A new atom-thin carbon membrane developed at the National University of Singapore could transform proton beams for cancer therapy and boost next-gen energy devices, electronics, and molecular ...

In the middle of the last century, physicists found that protons can resonate, much like a ringing bell. Advances over the last three decades have led to 3D pictures of the proton and significant ...

Researchers created a 1-atom-thick carbon membrane that sharpens proton beams, improving cancer therapy and enabling cleaner, scalable tech across multiple fields. (Nanowerk News) Researchers from the ...

The very first element on the Periodic Table may be the key to solving mysteries hiding inside the atom’s nucleus. Nuclear ...