Protons are built from three quarks — two “up” quarks and one “down” quark. But they also contain a roiling sea of transient quarks and antiquarks that fluctuate into existence before swiftly annihilating one another. At the Fermilab-hosted SeaQuest experiment, researchers report that that lopsidedness persists in a realm of previously unexplored quark momenta.
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From Jornal Da Unicamp, Feb. 18, 2021: Fermilab’s Deep Underground Neutrino Experiment is the largest study ever done on the subject in the world and will investigate the structure of the matter and provide answers on important issues related to the formation of the universe. DUNE has the participation of researchers from more than 100 countries, with Brazil as one of the signatories.
From Nature, Feb. 17, 2021: Fermilab guest composer David Ibbett writes about his latest piece, Neutrino Music, and how bringing artists and scientists together on the stage can help them to communicate the complex beauty of our world in a language that everyone can understand and appreciate.
From AZoMaterials, Feb. 18, 2021: Fermilab scientist Jeff McMahon and his research team have designed a new kind of metamaterials-based antireflection coating for the silicon lenses used in cameras used to capture the cosmic microwave background.
From Forbes, Feb. 22, 2021: Fermilab scientist Don Lincoln explains how modern cosmology imagines our universe is an astronomical confection with three primary ingredients: ordinary matter, dark matter and dark energy.
From UKRI, Feb. 22, 2021: UKRI scientists are developing vital software to exploit the large data sets collected by the next-generation experiments in high-energy physics. The new software will have the capability to crunch the masses of data that the LHC at CERN and next-generation neutrino experiments, such as the Fermilab-hosted Deep Underground Neutrino Experiment, will produce this decade.