With a ceremony held today, Fermilab joined with its international partners to break ground on a new beamline that will help scientists learn more about ghostly particles called neutrinos. The beamline is part of the Long-Baseline Neutrino Facility, which will house the Deep Underground Neutrino Experiment, an international endeavor to build and operate the world’s most advanced experiment to study neutrinos.
The Deep Underground Neutrino Experiment will tackle some of the biggest mysteries in physics — and to do so, it will need the most intense high-energy beam of neutrinos ever created. Engineers are up to the complicated task, which will need extreme versions of some common-sounding ingredients: magnets and pencil lead.
Site preparation work starts at Fermilab this fall for the international Deep Underground Neutrino Experiment. Contractors will begin site prep where the powerful particle beam will be extracted and sent toward its final destination in South Dakota.
From Descoperă.ro, Oct. 31, 2019: Deep Underground Neutrino Experiment a fost conceput pentru a înţelege mai bine neutrino şi degradarea protonilor. Într-un studiu recent, o echipă de cercetători de la Universitatea Ohio explică faptul că DUNE ar putea să îi ajute pe cercetători să realizeze o serie de descoperiri fundamentale legate de neutrinii solari, notează Phys.
Kirsty Duffy, a Lederman fellow at Fermilab, says neutrinos are the most interesting particles in the universe. As a recipient of the Leona Woods Distinguished Postdoctoral Lectureship Award, she’ll have a chance to make her case in two talks she’ll deliver at the Brookhaven National Laboratory this November.
Latin American institutions are instrumental in creating photon detectors for the Deep Underground Neutrino Experiment.
From Gizmodo, Oct. 23, 2019: Ahead lies a whole frontier in particle physics of grand unsolved mysteries, including why there’s more matter than antimatter in the universe, what the true identity of dark matter and dark energy is, or how the strange, ultraweak neutrino particles ended up so ghostly. The Fermilab-hosted DUNE and Muon g-2 experiments are among those looking for answers.
From Black Hills Pioneer, Oct. 10, 2019: Representatives from the British Consulate, Fermilab and Sanford Underground Research Facility were on hand for a dinner in Rapid City, South Dakota, in honor of the Red Arrows and the ongoing scientific and technological relations between the UK and the U.S. In 2017, the UK committed $88 million to the Long Baseline Neutrino Facility and the Deep Underground Neutrino Experiment. Fermilab Director Nigel Lockyer notes that the first science and technology agreement between the United States and the United Kingdom was driven by neutrino physics.
A collaboration with fewer than 100 members has played an important role in Fermilab’s ongoing partnership with Latin American scientists and institutions.
Advances in subatomic physics heavily depend on ingenuity and technology. And when it comes to discovering the nature of some of the most elusive particles in the universe, neutrinos, scientists need the best and most sensitive detector technology possible. Scientists working at CERN have started tests of a new neutrino detector prototype, using a very promising technology called “dual phase.”