National laboratories’ magnet designers look to the future of light sources with new prototype 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.
Scientists gain an unprecedented view of irradiated nuclear fuel Inspecting used uranium fuel at the Advanced Photon Source facility revealed new 3D insights that could enable better nuclear fuels.
Argonne earns HPCwire awards for the best use of high performance computing in energy and industry HPCwire magazine recognizes two Argonne teams for outstanding achievement in their use of high performance computing.
Better together: Scientists discover far-reaching applications of nanoparticles made of multiple elements An emerging type of alloy nanoparticle proves more stable, durable than single-element nanoparticles.
The high-tech evolution of scientific computing: A slight return Argonne is combining simulation, data science and machine learning approaches to help realize the promise of exascale computing.
Understanding ghost particle interactions Team constructs accurate nuclear physics model of neutrino-nuclei interactions.
High-precision electrochemistry: The new gold standard in fuel cell catalyst development Atomic-level insights help to reduce degradation in fuel cells and extend their lifetime.
Lead lab selected for next-generation cosmic microwave background experiment “Big science” project will explore origins of the universe and the cosmic frontier.
Argonne researchers develop new chip design for analyzing plant-microbe interactions Newly designed microfluidic device enables researchers to observe plant root-microbe interactions in real time.
Cementing the future Unraveling the centuries-old processes behind cement production can lead to sturdier and more cost-effective concrete.