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The 2×2 detector has captured its first neutrino interactions at Fermilab with help from scientists at SLAC. The prototype neutrino detector will help fine-tune a full-size version of the DUNE Near Detector Liquid Argon detector and will capture up to 10,000 neutrino interactions per day.

DOE has awarded the Fermi Forward Discovery Group, LLC a new management and operating contract for Fermilab, the nation’s leading particle physics and accelerator laboratory, for a five-year term beginning Jan. 1, 2025.

From National Geographic Spain, right click to translate. Why are particle accelerators so important as machines that help us find the answers to the questions of how the universe works and why we are here.

Fermilab’s Ron Ray speaks with the Infrastructure Show about the Deep Underground Neutrino Experiment and why the experiment will study to understand neutrinos.

Following nearly a decade of analysis, the CMS experiment has found that the W boson’s mass aligns perfectly with Standard Model predictions with remarkable accuracy.

At the beginning of the universe, equal amounts of matter and antimatter collided and there should have been nothing left. Yet, matter won out but why? Fermilab scientist Jessica Esquivel talks with NPR about the mysteries of neutrinos for answers.

SQMS Scientist Doğa Kürkçüoğlu, was able to pursue his passion for physics thanks to MIT professors and online resources and tools.

Physicists from the Muon g-2 collaboration have measured the magnetic moment of the muon to unprecedented precision and the collaboration’s latest work has been published in Physical Review D. What is next for Muon g-2?

The Short-Baseline Near Detector’s wealth of data will enable researchers to study neutrino interactions with a level of precision never before achieved.

The CMS experiment is developing a new type of trigger that looks for anomalies — one-in-a-billion events that show something new or unexpected.