From NRC, Sept. 19, 2018: Een nieuwe detector moet helpen begrijpen waarom materie en antimaterie elkaar niet onmiddellijk opheffen.
neutrino
From Le Scienze, Sept. 21, 2018: Successo del prototipo dell’esperimento DUNE, allestito presso il centro di ricerca ginevrino: sono i primi indizi del passaggio di neutrini nei rivelatori costituiti da enormi serbatoi di argon liquido. È l’inizio di un progetto che porterà alla realizzazione di un apparato sperimentale simile ma 20 volte più grande al FermiLab di Chicago.
From Udaipur Kiran, Sept. 18, 2018: More than 1,000 scientists and engineers from 32 countries spanning five continents — Africa, Asia, Europe, North America and South America — are working on the development, design and construction of the DUNE detectors.
From everyeye.it, Sept. 23, 2018: Il più grande rilevatore di neutrini ad argon liquido al mondo ha appena identificato il suo primo neutrino: inizia così la storia del Deep Underground Neutrino Experiment.
From La Liberté, Sept. 18, 2018: Installé au CERN, le plus grand détecteur de neutrinos à argon liquide au monde vient d’enregistrer ses premières traces de particules. C’est le début d’un nouveau chapitre dans l’histoire de l’expérience internationale DUNE.
From Noticias CIEMAT, Sept. 18, 2018: La colaboración científica de DUNE, donde participan el CIEMAT, el Institut de Física d’Altes Energies (IFAE), el Instituto de Física Corpuscular (IFIC) y el Instituto de Física Teórica (IFT), cree que los neutrinos pueden tener la respuesta a una de las principales cuestiones de la Física: por qué vivimos en un Universo dominado por la materia.
From Science News, Sept. 18, 2018: An enormous future particle detector is now within closer reach. The first data from a prototype experiment, ProtoDUNE, hint that scientists may have what it takes to build the planned neutrino detector.
From William & Mary, Sept. 18, 2018: Scientists on the DUNE collaboration think that neutrinos may help answer one of the most pressing questions in physics: why we live in a universe dominated by matter. The project includes a substantial William & Mary contingent.
From University of Manchester, Sept. 18, 2018: The largest liquid-argon neutrino detector in the world has recorded its first particle tracks, signaling the start of a new chapter in the story of the international Deep Underground Neutrino Experiment. The university is playing a leading role in a £65million flagship global science project.