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A newly developed fast, scalable algorithm can optimize the distribution of vaccines in a simulated epidemic network.
Lauren Greenlee received a $750,000 award from DOE to investigate the chemical and electronic structure of iron and oxygen atoms.
McNulty’s research essentially supports fundamental experimental physics projects that take place primarily at Jefferson Lab.
A novel algorithm that predicts the orbits of planets in the solar system could be adapted to better predict & control the behavior of fusion plasma.
A team became the 1st to get materials science simulations results on a quantum computer that can be verified with neutron scattering experiments.
As part of an $89 million investment, the UK is delivering a series of vital detector components built at the Daresbury Laboratory.
Scientists at Stony Brook U and Brookhaven Lab have begun building a quantum-enhanced X-ray microscope at the National Synchrotron Light Source II.
Research shows that microbes taken from trees growing beside mountain-fed streams could make phosphorus more accessible to agricultural crops.
Identifying specific platinum atoms activated in a water gas shift reaction catalyst could guide the design of less costly efficient catalysts.
A novel pipeline of AI and simulation tools may make the process of screening drug candidates for COVID-19 50,000 times faster.