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The newly completed Flight Instrument Test Laboratory at LANL is not just another building, it is a launchpad for innovation, precision, and the next generation of weapons and aviation technology.
A very brief history of aerial radiation monitoring in the nuclear age.
Sandia and Los Alamos national laboratories have launched a joint initiative to standardize 3D design and building information modeling practices.
From San Francisco to Indianapolis to New York to tiny Vinton, Louisiana, the RadSecure 100 Initiative gave communities a security upgrade.
X-rays are vital tools at NNSA. They help scientists study how plutonium ages and explore how inertial confinement fusion works.
Around the Nuclear Security Enterprise, researchers have found new ways to cast metal, create one-way “mirrors,” and revolutionize 3D printing – all using microwaves.
Teams in NNSA’s labs, plants, and sites detect gamma rays through numerous different methods and in all kinds of places, from the sky to the heavens.
Radio waves are good for a lot more than bringing today’s hits to your car’s speakers.
At NNSA’s labs, plants, and sites, research supporting our vital missions reaches across the electromagnetic spectrum – from radio waves to gamma rays. Sometimes that innovation spills into other areas, too, enabling tomorrow’s technological wonders.