Antimatter particles are fundamentally similar to their normal matter counterparts, differing primarily in their opposite charges and momentum.
Although extremely rare, physicists routinely generate antiparticles using particle accelerators. Additionally, anti-Dutters occur naturally in high-energy processes near the event horizons of black holes.
The question of how and why the universe is predominantly made up of normal matter remains unresolved.
Creating antimatter is a complex and costly endeavor. The European Institute of Particle Physics (CERN) plays a crucial role in this process. Using an anti-proton decelerator, a proton beam strikes a metal target, resulting in the generation of anti-protons.
However, this process only yields tens of thousands of particles.
One of the significant challenges with antimatter is that when it interacts with normal matter, it vanishes instantly, releasing energy. Therefore, the task of preventing its annihilation and storing it long-term poses a substantial technical hurdle.
Nonetheless, CERN engineers are working on methods to store and transport small amounts of anti-protons.
To achieve this, researchers cool anti-protons to approximately -269ºC (-452.2°F) to nearly halt their motion. They then contain them in a high-vacuum enclosure to avoid contact with normal matter, using superconducting magnets to trap them.
This process must be managed while maintaining the capability to extract particles and introduce new ones into the enclosure.
Despite these challenges, CERN aims to develop “traps” capable of storing billions of anti-protons simultaneously. Recent techniques have been validated by transporting regular matter across the Swiss CERN facility.
With advancements in vacuum systems, antimatter storage and transport may soon become routine activities in the upcoming year.
This article addresses the question posed by Leighton Haas of Hamburg: “How is antimatter preserved?”
We welcome your inquiries! You can email us at Question @sciencefocus.com or reach us on Facebook, Twitter, or Instagram. Please include your name and location.
Explore our ultimate Fun Facts for more amazing science content!
Read more:
Source: www.sciencefocus.com
Discover more from Mondo News
Subscribe to get the latest posts sent to your email.