With applications ranging from experimental physics to quantum field exploration, these high-energy lasers are more than ...

Why matter dominates over antimatter in our universe has long been a major cosmic mystery to physicists. A new finding by the ...

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Upgrades and new research at Argonne National Laboratory are helping physicists push boundaries, from basic science to the ...

Laser-plasma accelerators can accelerate particles over distances that are up to 1,000 times shorter than those required by ...

An international team of researchers is pushing forward with plans for a radically smaller, cheaper particle accelerator by ...

Substantial contributions to the 2026 update of the European Strategy for Particle Physics set the stage for discussions that will define the next ...

Physicists are sketching the designs of a particle accelerator that would be radically smaller and cheaper than existing ...

Superconductivity—the ability of some materials to conduct electricity with no energy loss—holds immense promise for new technologies from lossless power grids to advanced quantum devices.

Story continues below this ad The LHC is the world’s largest and most powerful particle accelerator, causing protons to accelerate and collide, thus helping scientists study the properties of matter.

As the world’s largest particle accelerator, the LHC uses superconducting magnets to whip particles around a 17-mile circle at near the speed of light. Collisions between those particles reveal ...