The postdoctoral researcher, a collaborator with the Q-NEXT quantum research center, develops high-tech materials to deliver photon packages of quantum information.
The finding, made with the use of the Advanced Photon Source, shows a new way to exploit monoclonal antibodies to subvert the “shield” of the virus, potentially paving the way for new therapies.
National labs are a sweet spot between academia and industry, says Muhoza, an Argonne scholar studying cutting-edge materials for batteries and other purposes.
Scientists at the Advanced Photon Source are exploring ways to analyze X-ray data faster and with more precision. One new software package called TomocuPy has shown to be up to 30 times faster than the current practice.
Addressing the challenge of increasing the representation of women and racial and ethnic minorities, Argonne is connecting with students to make a more inclusive environment in high performance computing.
Students from across the country attended Argonne’s eight-part series to learn the fundamentals of using AI and supercomputers for scientific research.
Following a free, advance screening of the movie in downtown Chicago, leading experts in quantum science discussed the quantum realm in Marvel’s universe and in ours.
Argonne’s Rapid Prototyping Laboratory is helping undergraduate and graduate students prepare for future science careers. Their efforts are paving the way for automating lab work with robotics and AI in autonomous discovery.
The future of nuclear energy, which can produce electricity without harmful emissions, depends on discovery of new materials. A scientist at Argonne is using computer vision to separate the best candidates from a crowded field.
