While it may not sound like a major leap, this approach offers one big advantage: killing cancerous cells while doing less damage to surrounding healthy tissue.

Scientists used the most massive fundamental particles to break special relativity, but even that didn’t work.

A 2D projection of a particle accelerator beam, computer-generated based on generative diffusion. The process is adaptively ...

The particle accelerator needed to administer carbon ion radiotherapy is the size of a building." So far, protons have been the particle of choice for human Flash trials, both because they can ...

In their new book, From Spinors to Supersymmetry, Herbi Dreiner, Howard Haber and Stephen Martin describe the two-component ...

In the first study of its kind at the Large Hadron Collider (LHC), the CMS collaboration has tested whether top quarks adhere ...

The course gives an introduction to particle accelerator technology, with a basis in physical principles and mathematical modeling of the interaction of charged particle beams with electromagnetic ...

Scientists have developed 'entanglement microscopy,' a technique that maps quantum entanglement at a microscopic level. By ...

Particle physics is the study of the elementary building blocks of matter and radiation and their interaction. The fundamental particles are summarised by the standard model. This includes leptons ...

As the global food system faces mounting challenges from climate change, resource scarcity, and food waste, innovative startups like Farmhood are stepping up to lead the way toward a more sustainable ...