Figuring out which type of neutrino is heaviest, or solving the puzzle of neutrino mass hierarchy, would be a huge leap in our understanding of both neutrinos and the physics that govern our universe. The NoVA experiment or DUNE could help physicists do just that.
The Fermilab particle accelerator complex set a record beam power earlier this year, thanks to the high-quality work of numerous teams and individuals. The successful completion of the NuMI 2020 shutdown work prepared the target facility for this achievement.
The Science and Technology Facilities Council, or STFC, has signed an agreement with Fermi National Accelerator Laboratory, in the United States, designating how the two organizations will collaborate to build one of the world’s most powerful linear accelerators.
Physicists and archaeologists are teaming up to provide research opportunities for Black and Hispanic undergraduates to image an archaeological site in Mexico using muon tomography. Fermilab personnel will help with the project, and Fermilab will also produce the scintillators for use in the muon detector.
Fermilab’s Superconducting Quantum Materials and Systems Center is announcing a new fellowship opportunity for Black and African American postdoctoral scholars. The Carolyn B. Parker Fellowship honors the legacy of the first African American woman to earn a postgraduate degree in physics.
Fermilab contractors have successfully commissioned a system that will move 800,000 tons of rock to create space for the international Deep Underground Neutrino Experiment’s detectors in South Dakota. Excavation crews will transport the rock from a mile underground to the surface using refurbished mining infrastructure and the newly constructed conveyor system.
Institutions in India are building major components for the new PIP-II particle accelerator, including radio frequency power amplifiers. These amplifiers power PIP-II components that accelerate the particles.
Theoretical physicist Clifford Johnson answers questions about his work in science and outreach, including advising on movies like Avengers: Endgame.
Have you ever wondered how big a particle is — or how scientists even measure something that tiny? Fermilab scientist Kirsty Duffy will answer a deceptively simple question with the help of some sports equipment: How big is a neutrino?
Fermilab enters a new era of facility management this week as the Centralized Facility Management program officially kicks off. Centralized Facility Management (CFM) brings the management of all* conventional facilities under one (virtual) roof.
Eight students have received the prestigious U.S. Department of Energy Office of Science Graduate Student Research Fellowships to conduct their research at Fermilab.
In this graphic but family-friendly 40-minute talk, Clifford Johnson, a professor at the University of Southern California, discusses the process of turning complex scientific topics into compelling visual narratives.
IN THE NEWS
From EIN Presswire, May 14, 2021; LBNL’s LArPix experiment result is a leap forward in how to detect and record signals in liquid argon time projection chambers (LArTPCs), a technology of choice for future neutrino and dark matter experiments such as Fermilab’s DUNE.
From Forbes, May 14, 2021: Fermilab senior scientist Don Lincoln discusses measuring the size of neutron stars and the result of a measurement showing that the centers of neutron stars are stiff and not squishy.