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The Department of Energy’s Oak Ridge National Laboratory will add its computational know-how to the battle against cancer through several new projects recently announced at the White House Cancer Moonshot Summit.
Since the discovery of high-temperature superconductors — materials that can transport electricity with perfect efficiency at or near liquid nitrogen temperatures (minus-196 degrees Celsius) — scientists have been working to develop a theory that explains
When physicists Georg Bednorz and K. Alex Muller discovered the first high-temperature superconductors in 1986, it didn’t take much imagination to envision the potential technological benefits of harnessing such materials.
Bruce Lester has had a lot of jobs: fisherman, horse trainer, “professional stair builder.” He last worked for a real estate company, surveying land using geographic software.
A high school senior at Oak Ridge National Laboratory has published research showing that, while it’s just part of a complex story, higher electricity costs alone cannot be counted on to reduce demand for electricity and cut greenhouse gas emissions.
High-resolution imaging of materials produces complex, copious data.
Single atoms or molecules imprisoned by laser light in a doughnut-shaped metal cage could unlock the key to advanced storage devices, computers and high-resolution instruments.
In a paper published in Physical Review A, a team composed of Ali Passian of t
A microscope being developed at the Department of Energy’s Oak Ridge National Laboratory will allow scientists studying biological and synthetic materials to simultaneously observe chemical and physical properties on and beneath the surface.
Piranha, an award-winning intelligent agent-based technology to analyze text data with unprecedented speed and accuracy, will be showcased at the Smithsonian’s Innovation Festival Sept. 26-27.