Long-lived particles get their moment
Scientists on experiments at the LHC are redesigning their methods and building supplemental detectors to look for new particles that might be evading them.
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Scientists on experiments at the LHC are redesigning their methods and building supplemental detectors to look for new particles that might be evading them.
The international Deep Underground Neutrino Experiment collaboration has published a paper about its capability for performing supernova physics. It details the kind of activity DUNE expects in the detector during a supernova burst, how DUNE will know once a supernova occurs and what physics DUNE will extract from the neutrinos. DUNE’s unique strength is its sensitivity to a particular type of neutrino called the electron neutrino, which will provide scientists with supernova data not available from any other experiment.
From the Department of Energy, Aug. 17, 2020: Seven DOE national laboratories, including Fermilab, will lead a total of 14 projects aimed at both automating facility operations and managing data modeling, acquisition, mining, and analysis for the interpretation of experimental results. The projects involve large X-ray light sources, neutron scattering sources, particle accelerators and nanoscale science research centers.
Scientists know the Higgs boson interacts with extremely massive particles. Now, they’re starting to study how it interacts with lighter particles as well.
From New Atlas, Aug. 12, 2020: An extensive search for a hypothetical particle has turned up empty. The sterile neutrino is a proposed subatomic particle that could even be a candidate for the mysterious dark matter, and although previous studies have hinted at its existence, and the MINOS+ and Daya Bay experiments have all but ruled it out.
From APS Physics, Aug. 10, 2020: Fermilab scientist Pedro Machado co-authors this article on how the MINOS and MINOS+ experiments at Fermilab and the Daya Bay experiment have placed the most stringent limits to date on a hypothetical fourth neutrino. Still, the possibility that such a particle exists remains open.
From the Department of Energy, Aug. 11, 2020: Fermilab scientist Chris Polly shares his love of physics, the importance of muons, a short history of scientists’ quest to measure how the muon wobbles in a magnetic field, and his journey to becoming leader of the Muon g-2 experiment.
From Forbes, Aug. 10, 2020: The Department of Energy announced the development of a national quantum internet, with DOE national laboratories forming the backbone. The Chicago Quantum Exchange is a meeting place for collaboration and community creation for national laboratories Argonne and Fermilab, University of Chicago, University of Illinois at Urbana-Champaign, University of Wisconsin-Madison, Northwestern University, and a number of large corporations.
From Argonne National Laboratory, Aug. 5, 2020: The U.S. Department of Energy’s Advanced Scientific Computing Research Leadership Computing Challenge has awarded 24 projects a total of 5.74 million node hours at the Argonne Leadership Computing Facility to pursue challenging, high-risk, high-payoff simulations. Fermilab scientists Andreas Kronfeld and Igor Rakhno are among those who have been awarded time on the facility’s Theta supercomputer.
From Photonics, July 27, 2020: The U.S. Department of Energy has unveiled a blueprint strategy for the development of a national quantum internet, reaffirming its commitment to widening the nation’s quantum capabilities by relying on its 17 national laboratories to serve as the backbone of the coming quantum internet and the secure transmission of information.