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Novel high temperature superconductor magnet technology charts new territory.
Surprisingly large effect greatly increases the probability that new neutrino experiments will be able to see the differences between matter and antimatter.
The optimization of commercial hardware and specialized software enables cost-effective supercomputing.
Gamma-ray detectors built with silicon photomultiplier arrays provide high-resolution 3D imaging for research.
Thomas Jefferson Laboratory lends expertise in cryogenics developments.
Discovery could provide a deeper understanding of the dynamics of the three quarks enslaved inside the nucleon.
Precision analytical techniques developed for fundamental experiments in nuclear physics now enable routine measurements of ultra-low concentrations of Krypton radioisotopes in samples of water, ice, and gas.
Imaging tools aid research in global climate change, plant genetics, biofuels, agriculture, and carbon sequestration.
New calculations have quantified the boundaries and uncertainties of the ‘chart of the nuclides’—the extended periodic table of all matter.
Observation of these particles in cosmic rays with space based detectors would imply large amounts of anti-matter somewhere in the universe.
Theory and experiment combine to provide the most precise empirical extraction of the proton’s tensor charge, a fundamental property of the proton.
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