The neutrino oscillation parameters need to be measured precisely to provide essential information for a modification of the Standard Model. Accomplishing this novel goal in future neutrino experiments, such as the Deep Underground Neutrino Experiment (DUNE) at Fermilab, requires high flux neutrino beams and powerful combination of near and far detectors. The Long Baseline Neutrino Facility (LBNF) is under construction to provide high power proton beams for high flux neutrino beams to the experiment and the near and far detector sites, while the DUNE collaboration is working on finalizing the design and prototyping its detectors. This powerful facility being prepared for the oscillation measurements makes it possible to access physics Beyond the Standard Model, which was inconceivable at a neutrino experiment in the past. In this talk, I will discuss DUNE experiment itself, its beams and detectors and discuss BSM physics topics being explored, in particular the dark sector particles, and their sensitivity reaches. I will then discuss what the important issues are to take full advantage of the experiment’s capabilities and the current status of the experiment.
IFIC seminar organizers