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 ...

Researchers have touted the revolutionary potential of quantum computers to take on otherwise intractable challenges, like modeling complex molecular behavior for drug discovery or factoring enormous ...

Researchers at Johns Hopkins APL, in collaboration with Samsung Research, have unveiled a breakthrough in solid-state cooling technology, doubling the efficiency of today’s commercial systems. Driven ...

As head of APL’s Strategic Deterrence Mission Area, Robert Vercher will lead a mission area that provides key engineering capabilities and technical analyses and evaluations to ensure the performance ...

The Johns Hopkins APL-led team working on the first rotorcraft designed for scientific exploration on another ocean world has passed its Critical Design Review, a major milestone confirming that ...

Lunar experts at the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, have created a new technical resource to guide technology developers who are designing systems to withstand the ...

Johns Hopkins APL researchers are advancing robotic perception by using artificial intelligence to equip autonomous agents with the capacity to make sense of unstructured environments — and make plans ...

The Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, and Microsoft, of Redmond, Washington, have agreed to collaborate to accelerate innovation in robotics and materials discovery ...

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

NASA and SpaceX are now targeting as soon as September 2025 for the launch of the agency’s Interstellar Mapping and Acceleration Probe (IMAP) spacecraft, which is currently undergoing integration and ...

Johns Hopkins APL researchers have leveraged cutting-edge additive manufacturing techniques and shape memory alloys to create an antenna that can change its shape — and offers a range of potential ...

A new high-resolution neural recording method developed by Johns Hopkins APL and the School of Medicine detects neural activity through the skull at unprecedented resolutions, expanding possibilities ...