Over the next three months, scientists expect to make the world’s most precise measurement of the muon’s anomalous magnetic moment, often expressed as the quantity g-2.
In Japanese, Takuya Urunos first name means "pioneer." In his 25-year career as a professional Manga artist, Uruno has been steadfast in living up to the title.
Tom Peterson loves hunting season. He spends his lunch hours scouting the best spots, and weekends lurking around the edges of Fermilab's ponds and moving as silently as he can through old fields.
Imagine a house-sized acrylic fishbowl inside a giant, shiny, disco-ball-like sphere, suspended in a cavern as tall as a 10-story building. Now imagine climbing around inside that pitch-dark fishbowl with a squeegee and a flashlight.
Fermilab is cooking up a hot technology—and the serving is ultracold. The laboratory is stepping up efforts to develop and test superconducting radio-frequency cavities, a key technology for the next generation of particle accelerators and the future of particle physics.
In 1991, James Cronin travelled to Leeds, England, to visit Alan Watson, an expert on cosmic-ray physics. Cronin, a Nobel Prize winner in physics who had worked on accelerator-based particle physics experiments, wanted to discuss ideas for cosmic-ray projects.