RSS
Researchers harnessed the frequency, or color, of light - making the communication network itself a photonic quantum information processor.
Applying an electric pulse to NdNiO3 moved an inserted proton, creating a different resistance state which generated an information storage site.
The research by scientists at DOE's Princeton Plasma Physics Laboratory could ensure that fabrication forms nanotubes as efficiently as possible.
PNNL physicist Vijayakumar "Vijay" Murugesan’s research—destined for Energy Sciences Center—adds to PNNL’s battery technology contributions
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.
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.
The capacity for more simulations allows teams to overlap and form consensus, yielding a clearer picture of the mechanisms behind the explosions.
The XGC code produces kinetic simulations using trillions of particles on extreme-scale computers and suggests that there might be hidden parameters.