Scientists on the Axion Dark Matter Experiment have demonstrated technology that could lead to the discovery of theoretical light dark matter particles called axions.
The big-bang theory of the early universe implies that the universe is immersed in a bath of microwave light, a cooled-down remnant of early high-temperature radiation, invisible to the naked eye.
Cavities propel charged particles by transferring energy from electromagnetic waves to the particles, speeding them up. Superconducting cavities are made of material that can conduct electric currents without resistance at a very low temperature.
The highest-energy particle accelerator in the world, Fermilab's Tevatron, boasts four miles of particle-accelerating circumference. But during thunderstorms it can become a bull's-eye for stray lightning bolts that demonstrate the intimidating power of nature.
There's a new scientific path in Princeton, New Jersey. Out of the loam of a vacant lot, a cluster of quasicrystals winks at some pink plasma. Tectonic plates shift, and neurons connect in a hippocampus curve of bamboo.
From the day it was completed in the early days of Fermilab, the design of the Meson Lab roof has been an aesthetic success and a structural nightmare. It leaks. Always has.
The inaugural beam for the CERN Neutrinos to Gran Sasso (CNGS) project took just 2.5 milliseconds to fly 732 km through the earth from Geneva, Switzerland, to its destination at the Gran Sasso underground laboratory near Rome on Monday, September 11, 2006.
When 20-year-old Ryan Auer set out to find his very first job, he didn't expect to wind up at the Stanford Linear Accelerator Center, let alone on stage in front of over 1000 people at the lab's annual Family Day.