Researchers have developed innovative methods to control the ionization of atoms and molecules using specially structured light beams, challenging traditional limits. This breakthrough could lead to ...

This year, the wheels were set back in motion on 19 February, when the first particle beam of 2025 circulated in Linac4. The ...

An international collaboration has shown that additive manufacturing offers a realistic way to build large-scale plastic scintillator detectors for particle physics experiments.

For the first time, scientists have 'photographed' a rare plasma instability, where high-energy electron beams form into ...

A team of researchers from the University of Ottawa has made significant strides in understanding the ionization of atoms and ...

A new technique in detector fabrication could change high-energy physics forever. By using additive manufacturing, ...

Researchers carefully positioned lasers to compress billions of electrons together, creating a beam five times more powerful ...

For decades, scientists believed that lead-208, a "doubly magic" and highly stable atomic nucleus, was perfectly spherical.

Powerful compact accelerators could allow new particle physics experiments without requiring kilometer-scale infrastructure. Miniaturized accelerators could advance radiation therapy for cancer ...

The upgrade to the Large Hadron Collider will allow scientists to better study known phenomena and to search for new ones.

Try to fathom the power of 1 million nuclear power plants. Now, imagine there is a way to pack the equivalent of that into ...