Exploring and manipulating the behavior of polar vortices in material may lead to new technology for faster data transfer and storage. Researchers used the Advanced Photon Source at Argonne and the Linac Coherent Light Source at SLAC to learn more.
The digital twin program will allow researchers to try out their experiments in a simulated version of scientific facilities, before ever setting foot in the real thing.
The new material, which the Advanced Photon Source helped characterize, is strong yet stretchable, and could be ideal for creating artificial tendons and ligaments for prosthetics and robotics.
As the fight against COVID-19 continues, scientists have turned to an unlikely source for a potentially effective treatment: tiny antibodies naturally generated by llamas.
Argonne is providing data from its high-resolution climate model to help a major U.S. utility safeguard its current infrastructure and better plan for the future in a changing climate.
After more than 15 years of work, scientists at three DOE national laboratories have succeeded in creating and testing an advanced, more powerful superconducting magnet made of niobium and tin for use in the next generation of light sources.
The research team used the Advanced Photon Source to confirm an effective antibody that prevents the dengue virus from infecting cells in mice, and may lead to treatments for this and similar diseases.