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New in vitro platform prototypes and rapidly optimizes synthetic enzymes for cellular design.
Studying nuclear reactions using a Time Projection Chamber allows scientists to study stars’ internal processes.
New approaches shed light on arctic soil microbes and their potential to release greenhouse gases when permafrost thaws.
Elucidating the plant’s ability to tweak its defense response to specific pathogens.
New measurements offer insights into binding interactions that glue fundamental building blocks of matter together.
Experiments reveal the relationship between the density of matter and extreme pressure in stellar objects, putting constraints on models of white dwarf stars
Novel Convolutional Neural Network combined with advanced microscopy offers a path to automated and reliable radiation defect analysis.
Measurements of the electromagnetic properties of radioactive antimony-129 provide unique insight into the nature of the proton-neutron interaction and nuclear shapes.
New experiments demonstrate the correlation of natural radiation, unpaired electrons, and decoherence in superconducting qubit devices.
New research and newly implemented techniques expand scientific understanding of isotopes whose nuclei have the “magic numbers” of less than 82 protons and more than 126 neutrons.
Nuclear theorists explore the properties of dense neutron matter to get at the core of neutron stars.
A technique that suppresses damaging instabilities also improves the exhaust of helium ‘ash’ in the DIII-D tokamak, improving conditions for fusion.
