Accelerated Muons Bring Next-Gen Particle Colliders Closer to Reality
Arthur T Knackerbracket has processed the following story:
In a step toward new types of particle physics experiments, scientists cooled and then accelerated a beam of muons. The subatomic particles, heavy cousins of electrons, could be accelerated and slammed together at future particle colliders in hopes of unlocking physics secrets. But first, scientists have to figure out how to give muons a speed boost.
Counterintuitively, that means first slowing muons down. Muons in particle beams initially go every which way. To make a beam suitable for experiments, the particles need to be first slowed and then reaccelerated, all in the same direction. This slowing, or cooling,was first demonstrated in 2020(SN: 2/5/20).
[...] The scientists first sent the muons into an aerogel, a lightweight material that slowed the muons and created muonium, an atomlike combination of a positively charged muon and a negatively charged electron. Next, a laser stripped away the electrons, leaving behind cooled muons that electromagnetic fields then accelerated.
Muon colliders could generate higher energy collisions than machines that smash protons, which are themselves made up of smaller particles called quarks. Each proton's energy is divvied up among its quarks, meaning only part of the energy goes into the collision. Muons have no smaller bits inside. And they're preferable to electrons, which lose energy as they circle an accelerator. Muons aren't as affected by that issue thanks to their larger mass.
S. Aritomeet al.Acceleration of positive muons by a radio-frequency cavity. arXiv:2410.11367. Submitted October 15, 2024.
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