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Aurora21: Machine learning for LQCD
Our project on machine learing for lattice QCD was selected for an award under the Aurora Early Science Program for Data and Learning. This will provide early access to the Aurora…
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First calculation of scalar, axial and tensor charges of light nuclei published in PRL
Given the size of the nuclear modifications of the scalar charges resolved here, contributions from correlated multi-nucleon effects should be quantified in the analysis of dark matter direct-detection experiments using nuclear…
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Particle Interactions calculated on titan support the search for new physics discoveries
MIT RESEARCHERS AND COLLABORATORS MODEL FUNDAMENTAL PROCESSES RELATED TO THE SUN’S ENERGY PRODUCTION AND THE SEARCH FOR A NEUTRINO ANTIPARTICLE
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Proton-Proton Fusion: Powering the Sun
Large-scale simulations of quarks promise precise view of reactions of astrophysical importance.
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A Peek Inside the Earliest Moments of the Universe
Researchers from the NPLQCD Collaboration used LQCD calculations to better understand the big bang nucleosynthesis process, which occurred in the first few minutes following the Big Bang, and precisely measure the…
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Pinpointing the Magnetic Moments of Nuclear Matter
Using NERSC’s Edison supercomputer, a team of nuclear physicists has made a key discovery in its quest to shed light on the structure and behavior of subatomic particles.