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

Parker Solar Probe completed its seventh and final Venus gravity-assist maneuver, swinging onto a path that will bring it to ...

Larry Harvell is the new military and veteran recruiting program lead at APL, working to attract transitioning military personnel and veterans to the nation’s largest university affiliated research ...

Hypersonic technologies have been investigated for more than six decades, and important operational capabilities exist in the form of reentry, space lift, and interceptor systems. Today, new classes ...

A Johns Hopkins Applied Physics Laboratory (APL) team developed infrared (IR) metasurface imaging lenses designed to selectively focus specific states of polarized light (linear and circular) to ...

With their proven performance, unique properties, and manufacturability, composite materials lend themselves to many applications. The Johns Hopkins University Applied Physics Laboratory (APL) uses ...

Additive manufacturing (AM, also known as 3-D printing) technologies offer the potential to revolutionize the creation of parts, disrupt supply chains, and positively affect every major industry in ...

Metal matrix composites (MMCs), with their unique property combinations, have the potential to enable disruptive capabilities for extreme environment applications that require high performance from ...

This article describes Johns Hopkins University Applied Physics Laboratory (APL) capabilities in computational engineering and design for additive manufacturing. Because additive manufacturing’s ...

This article describes a Johns Hopkins University Applied Physics Laboratory (APL) strategic independent research and development project exploring multifunctional hypersonic components and structures ...