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Communique Newsletter: May 16, 2022
The result was announced by a collaboration of more than 80 university and DOE national laboratory scientists and engineers around the world.
Using 5.2 million CPU hours and 69,632 CPU cores at NERSC, the simulation is one of the largest ever performed to gain understanding of dark matter.
The Pion L/T experiment will study pion structure to get a better grasp on the origin of the mass of ordinary matter.
New research details how properties found in flat-band physics, similar to twisted bilayer graphene, can be obtained in just a single layer.
A study co-authored by the University of Hawai‘i discovered the world’s ocean is steadily losing its year-to-year memory due to global warming.
The researchers identified a mechanism called “momentum-dependent spin splitting” that is unique to ruthenium oxide and other antiferromagnets.
Researchers at Argonne Lab have developed a new technique for X-ray crystallography that allows researchers to adjust their experiments in real time.
The Human Genome Project began in 1990 when DOE laboratories partnered with the National Institutes of Health to focus on three human chromosomes.
Tabbetha Dobbins has been appointed to the Department of Energy’s Basic Energy Sciences Advisory Committee.