Gen. Gregory Guillot, Commander, North American Aerospace Defense Command and U.S. Northern Command, saw firsthand how APL’s ...

APL is working with the Naval Sea Systems Command to prove that additive manufacturing can consistently deliver ...

APL’s Conference Services team manages scheduling for spaces on APL’s main campus. A variety of events and conferences are ...

Designing, building, and applying new technologies—especially those that include artificial intelligence—can be a double-edged sword: powerful and enabling on the one hand, but potentially biased and ...

Controlling a computer with your mind was once pure science fiction, but it’s now plausible thanks to brain-computer interface (BCI) technology. Today’s BCI systems have achieved extraordinary ...

After a decade in the making, the Particle Environment Package (PEP)-Hi instruments, built by the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, for an upcoming mission to Jupiter ...

NASA’s Dragonfly mission team is moving on to the next stage of development on the revolutionary, car-sized nuclear-powered drone it plans to fly over and land on the organic-rich sands of Saturn’s ...

Producing high-performance titanium alloy parts — whether for spacecraft, submarines or medical devices — has long been a slow, resource-intensive process. Even with advanced metal 3D-printing ...

Researchers at the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, have developed a new, easily manufacturable solid-state thermoelectric refrigeration technology with ...