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.
ProtoDUNE
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.
From CERN, Sept. 18, 2018: The technology of the first ProtoDUNE detector will be the same to be used for the first of the DUNE detector modules in the United States.
From Live Science, Sept. 18, 2018: On the occasion of the ProtoDUNE detector seeing its first signals, Fermilab’s Don Lincoln lays out the research goals of the international Deep Underground Neutrino Experiment.
From Brookhaven, Sept. 18, 2018: The enormous ProtoDUNE detector – the size of a three-story house and the shape of a gigantic cube – was built at CERN as the first of two prototypes for what will be a much, much larger detector for the DUNE project, hosted by Fermilab.
From STFC, Sept. 18, 2018: The enormous ProtoDUNE detector is the largest liquid-argon neutrino detector in the world. The size of a three-story house and the shape of a gigantic cube it has just recorded its first particle tracks signaling the start of a new chapter in the story of the international Deep Underground Neutrino Experiment.
From Swiss Info, Sept. 18, 2018: L’immense détecteur de ProtoDUNE, un cube de la taille d’une maison de trois étages, a été construit au CERN.