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Scientists illuminate the quantum dynamics of electrons in highly excited molecules.
Package provides end-to-end analysis of microscopy images for accelerated materials research.
MemHC improves the efficiency of complex supercomputer physics calculations by optimizing memory management.
New results will help physicists interpret experimental data from particle collisions and better understand the interactions of quarks and gluons.
Scientists successfully measure high-dimensional qudits, cousins to quantum computing qubits.
Understanding radium’s chemistry increases the likelihood of using it for targeted alpha therapy in soft tissue.
An easy-to-use system can increase the availability of PET imaging agents to more patients.
Scientists find the key to engineering plant signaling to allow colonization by beneficial fungi.
Nuclear “filters” will aid in searches for new-physics events occurring with odds of one in 100 quadrillion.
New calculations suggest that high energy quarks should scatter wider and faster in hot quark matter than can be accounted for by local interactions.
First measurements of how hypernuclei flow from particle collisions may give insight into the strange matter makeup and properties of neutron stars.
Modern nuclear theory predicts that nucleons appear less “squishy” when probed with neutrinos than was previously inferred from experimental data.
