magnet
From Wonderful Engineering, January 10, 2022: A video trip of the 17-ton superconducting magnet ring designed to be the focal point of Fermilab’s Muon g-2 subatomic particle experiment that was moved from Brookhaven, New York to Batavia, Illinois.
From New Atlas, December 1, 2021: Neutrino research and other experiments may have new magnets to use in the future. Physicists at Fermilab have developed a superconducting magnet that can perform at high temperatures and higher field strength. Read more about the work of Vladimir Shiltsev and Alexander Zlobin.
Large, powerful magnets are a vital component of particle accelerators. The general rule is, the stronger the magnetic field, the better. For many particle accelerator applications, it is as important how fast a magnet can reach its peak strength and then ramp down again. A team at Fermilab now has achieved the world’s fastest ramping rates for accelerator magnets using high-temperature superconductors.
From Berkeley Lab, Feb. 17, 2021: Fermilab is part of a team of national labs that designed, built and fully tested a prototype magnet for today’s and tomorrow’s light sources. These light sources let scientists see things once thought impossible. They can use these visions to create more durable materials, build more efficient batteries and computers, and learn more about the natural world.
The U.S. Department of Energy has given the U.S. High-Luminosity Large Hadron Collider Accelerator Upgrade Project approval to move full-speed-ahead in building and delivering components for the HL-LHC, specifically, cutting-edge magnets and accelerator cavities that will enable more rapid-fire collisions at the collider. The collider upgrades will allow physicists to study particles such as the Higgs boson in greater detail and reveal rare new physics phenomena. The U.S. collaborators on the project may now move into production mode.