Johns Hopkins APL researchers have leveraged cutting-edge additive manufacturing techniques and shape memory alloys to create ...

APL is developing sensors, systems, and models to provide key intelligence on how the environment is changing and how climate ...

A new high-resolution neural recording method developed by Johns Hopkins APL and the School of Medicine detects neural ...

APL’s Building 201 was recognized as runner-up for Lab of the Year by the Scientific Equipment and Furniture Association, ...

Johns Hopkins APL has expanded its partnership with the Climate TRACE coalition to enhance AI-powered tracking of global ...

APL has signed a cooperation agreement with Houston-based Intuitive Machines to partner on providing safe, secure and ...

Vol. 32, No. 5 (2014) The MSX/UVISI Stellar Occultation Experiments: Proof-of-Concept Demonstration of a New Approach to Remote Sensing of Earth’s Atmosphere ...

The Johns Hopkins University Applied Physics Laboratory (APL) Concept Design and Realization Branch offers an array of engineering, design, and fabrication capabilities that support the Laboratory’s ...

Mechanical engineering design is a traditional discipline that has advanced with the advent of new technology and techniques. Engineers can now combine traditional concepts with novel technologies and ...

Cheap and plentiful hydrogen harvested from water. Lightning-fast biocomputers running on brain-like substrates. Widely available noninvasive brain scans for early detection of neurological disease. A ...

The Johns Hopkins University Applied Physics Laboratory (APL) has embarked on a decade-long strategic effort to enhance its level of innovation in an increasingly turbulent world. These initiatives ...

With Project Proto-HEAD, or Prototype Holographic Environment for Analysis of Data, a Johns Hopkins University Applied Physics Laboratory (APL) team sought to learn more about augmented reality (AR) ...