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The new agreement will promote opportunities for collaboration on decarbonization efforts that could pave the way for a cleaner energy transition.
Physicists provide theoretical insights with an experiment involving a “strange metal” that could be foundational to next-gen quantum technologies.
Atomic level details reveal how enzyme selectively breaks hydrocarbon bonds, suggesting bioengineering strategies for making useful chemicals.
A team discovered two kinds of magnetic fields - merons and skyrmions - can coexist in an ultrathin material of iron, germanium, and tellurium.
Lett is responsible for Fermilab’s talent development strategy, to help individuals maximize their potential and get to their next level, career-wise.
Researchers at NC State have demonstrated techniques that provide unprecedented detail into how materials behave when exposed to a range of stresses.
The Department of Energy has awarded an MSU-led team 1.3 million node hours of computation time on the Frontier supercomputer.
The funding supports research into the next generation of sustainable, cost-effective bioproducts and bioenergy, to reduce greenhouse gas emissions.
Ortiz is an Oak Ridge National Laboratory Wigner Distinguished Staff Fellow who is helping design the next generation of quantum materials.
Physicists at Thomas Jefferson National Accelerator Facility may have finally pinpointed where in the proton a large fraction of its mass resides.