On its record-breaking pass by the Sun late last year, the Johns Hopkins APL-built Parker Solar Probe captured stunning images from within the Sun’s atmosphere. Taken closer to the Sun than we’ve ever ...

Vishal Giare has been appointed head of APL’s Air and Missile Defense Sector, where he will lead APL’s efforts to advance the nation’s ability to defend our homeland, deployed forces, allies and ...

Johns Hopkins APL and Blue Canyon Technologies have collaborated on agile, reliable space solutions for government sponsors, ...

A team of researchers from APL and the Johns Hopkins Bloomberg School of Public Health is developing next-generation brain organoid platforms to better understand the effects of mild blast-induced ...

Pat Rivlin is a senior researcher and the supervisor of the Connectomics Section in the Neuroscience Group within APL’s Research and Exploratory Development Department. She is a broadly trained ...

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 ...

APL is applying its expertise in lunar science and technology to a Defense Advanced Research Projects Agency initiative to identify and propose interoperating standards for commercial infrastructure ...

Before launch of the EZIE mission, the EZIE team at Johns Hopkins APL will make and freely distribute approximately 700 magnetometer kits (nicknamed EZIE-Mag) to teachers and students across the ...

Johns Hopkins researchers have leveraged artificial intelligence to uncover faster, more efficient ways to manufacture titanium alloy parts while maximizing mechanical performance.

Scientists believe that so-called magnetic anomalies hold clues to conditions on the Moon and other worlds throughout the solar system. To find out, APL leads a project not just to visit the most ...

Lunar experts at APL have developed a new resource to guide technology developers who are creating systems designed to withstand the rigors of the Moon’s surface.