DUNE

At the Sanford Underground Research Facility, hovercraft technology is being used to efficiently move massive steel beams for the Long-Baseline Neutrino Facility/Deep Underground Neutrino Experiment. Named after a beloved workhorse at the former gold mine that now contains the science facility, “Maggie II” is an innovative solution for the challenges of transporting heavy, awkwardly shaped beams underground to construct one of the largest physics experiments in the world.

Sowjanya Gollapinni has been elected as the new co-spokesperson for the Deep Underground Neutrino Experiment, succeeding Mary Bishai. Gollapinni is a senior scientist and the Neutrino Group Leader at Los Alamos National Laboratory and has been involved with DUNE since 2015. Now, she will co-lead the project to its next stages of development.

Discover magazine interviews Dr. Robert Wilson, one of the founding members of DUNE, about the goals of DUNE in studying the behavior of neutrinos.

A new study explores the possibility of studying the sun’s interiors using neutrinos. By studying oscillations at different energy levels, scientists can infer details about the sun’s density structure beyond what traditional models provide.

Documenting the work of building the world’s largest neutrino experiment presents photographers with a unique set of challenges.

The DUNE experiment with study neutrinos and antineutrinos. A recent paper suggests DUNE might also be able to detect and confirm the existence of large extra dimensions.

President Biden recently signed a bicameral resolution that changes the name of Fermilab’s Integrated Engineering Research Center to the Helen Edwards Engineering Research Center. The building’s new name honors the late Dr. Helen Edwards, a renowned particle physicist at Fermilab.

A study published in the Journal of High Energy Physics proposes that the enigmatic behavior of neutrinos could be explained if there exist extra spatial dimensions on the scale of micrometers and the familiar three dimensions of space. The theory of large extra dimensions offers a potential explanation for the origin of the tiny neutrino masses not covered int he Standard Model of Physics.

Neutrino physics is one of the most promising fields of research to unravel the mysteries of the Universe. This includes the future Deep Underground Neutrino Experiment led by Fermilab to study the behavior of neutrinos.

A newly published white paper outlines the next 10 years of global research into the behavior of neutrinos that could explain why the universe has more matter than antimatter. One of those neutrino projects is DUNE, the most ambitious neutrino research project led by Fermilab. The paper was an ambitious undertaking of the more than 170 contributors from 118 organizations and was a result of Snowmass 2021/2022.