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An international collaboration is using porous, sponge-like materials, made from sugar and alkali metal salts, that can trap CO2 in their cavities.
Researchers performed quantum simulations of spin defects, to improve the calculation accuracy by correcting for noise introduced by quantum hardware.
ORNL is testing a loop system to determine the most effective geometries in helping the gas flow in continuous movement, cooling the metal structures.
Nuclear physicists are partnering with visual artists for a science-based animation of the landscape inside the ubiquitous proton.
Megan Murphy and Gabriel Parker are recipients of the U.S. Department of Energy's Office of Science Graduate Student Research Award.
Incorporating known physics into neural network algorithms allows researchers to discover new insights into material properties.
MSU helps deliver insights to better characterize the nuclear physics and extreme environments of cosmic explosions.
Morrell-Falvey’s work as leader of the Molecular and Cellular Imaging Group in the Biosciences Division has resulted in new insights in several areas.
Scientists from two national laboratories used Argonne’s Advanced Photon Source to answer a decades-old question.
The meeting highlights include detailed descriptions of fundamental matter and explorations of intriguing physics.