Researchers at the Johns Hopkins APL have found a way to use machine learning to improve defect detection for LPBF.

NASA’s Parker Solar Probe could solve the mysteries of the solar wind and test Einstein’s theory of relativity.

With the installation of a charged particle detector on Dec. 3, 2024, all 10 of NASA's Interstellar Mapping and Acceleration ...

APL hosted its annual Cislunar Security Conference, bringing together leaders in government, academia, industry and other ...

Researchers at Johns Hopkins APL and the Johns Hopkins Medicine Wilmer Eye Institute in Baltimore are designing a retinal ...

Scientists have come a step closer to understanding how collisionless shock waves—found throughout the universe—are able to ...

The Parker Solar Probe flew within 3.8 million miles of the Sun's surface, the closest any spacecraft has ever gone.

A layer of diamonds was found beneath Mercury's surface. This could help scientists understand the planet's unusual magnetic ...

Scientists have come a step closer to understanding how collisionless shock waves -- found throughout the universe -- are able to accelerate particles to extreme speeds.

The mission operations team, located at the Johns Hopkins Applied Physics Laboratory in Laurel, Maryland, was able to confirm the success of the flyby Friday morning after receiving a signal from ...

The mission, a collaboration between NASA and the Johns Hopkins Applied Physics Laboratory, has revolutionized our understanding of the sun, spotted comets, snapped captivating pictures and ...