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When the beam has passed through all 23 cryomodules, the particles will be traveling at 84% the speed of light — over 560 million miles per hour.
Microbial electrosynthesis, in which incoming electrons are fed to an engineered microbe, would convert carbon dioxide into non-carbon molecules.
Using a material known as magic-angle twisted bilayer graphene, the team explored how interacting electrons give rise to surprising phases of matter.
System uses machine learning to analyze boundaries between crystal grains, allowing for selection of desired properties in a new metal.
Join us: National Labs in the Fight: Marshalling DOE’s Scientific Prowess to Combat COVID-19
Scientists at Brookhaven Lab discover that covering metal catalyst surfaces with thin two-dimensional oxide materials can enhance chemical reactions.
A research team led by Berkeley Lab has captured real-time high-resolution videos of liquid structures taking shape as nanoparticle surfactants.
Mitigating beam loss - using a new measurement technique - is paramount to realizing more powerful accelerators at smaller scales and lower costs.
A quantum effect in topological semimetals demonstrated by MIT researchers could allow for the utilization of an untapped energy source.
The discovery is a key development for efforts to weave technological capabilities into clothing and accessories.