Staff members from the Air and Missile Defense Sector (AMDS) at the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, have collected more than 15,000 books for children living below the poverty line in the local area.
NASA’s Parker Solar Probe — designed, built and managed by Johns Hopkins Applied Physics Laboratory (APL) — will launch in summer 2018 and travel to our star on a historic mission to “touch the Sun.” Now you can get on board and be a part of this voyage of extreme exploration.
NASA has selected an APL proposal to send an innovative, instrumented rotorcraft to Saturn's largest moon for further development.
The Johns Hopkins Applied Physics Laboratory and the Financial Services Information Sharing and Analysis Center are operationalizing the Integrated Adaptive Cyber Defense (IACD) framework, which will enable companies to improve the ability to quickly and broadly share information and prevent and respond to cyberattacks.
Breakthrough Cuttable, Flexible, Submersible and Ballistic-Tested Lithium-ion Battery Offers New Paradigm of Safety and Performance
Public Health Officials Leverage APL-Developed Disease-Surveillance System to Manage Opioid Epidemic
Researchers at Johns Hopkins Applied Physics Laboratory have demonstrated a significant advancement in the preservation of certain kinds of therapeutics in a portable, stable, and heat resistant form that is ideal for applications in remote or challenging areas.
Johns Hopkins APL researchers created a fixed-wing, unmanned vehicle that could autonomously operate underwater and then propel itself fast enough to make the transition into the air, becoming an autonomous flying aerial vehicle.
A team of engineers from the Johns Hopkins University Applied Physics Laboratory (APL), in Laurel, Maryland, has successfully demonstrated a high-bandwidth, free space optical (FSO) communications system between two moving ships, proving operational utility of FSO technology in the maritime environment.
The Dragonfly mission concept would use an instrumented, radioisotope-powered, dual-quadcopter to explore Saturn's largest moon, Titan, one of our solar system’s “ocean worlds.”
Breakthroughs in solar panel cooling tech will help keep NASA’s Parker Solar Probe operating at peak performance — even while flying through the sun’s corona
The Lab has been designing noninvasive optical imaging methods to increase the reach of neural prosthetics, and ultimately produce technologies that could offer high-speed, thought-driven interfaces.
Engineers from the Johns Hopkins University Applied Physics Laboratory (APL) in Laurel, Maryland, in cooperation with the U.S. Missile Defense Agency (MDA), the Japan Ministry of Defense, and U.S. Navy sailors aboard USS John Paul Jones (DDG-53), played a key role in the first live-fire intercept using the new Standard Missile-3 (SM-3) Block IIA guided missile during a Feb. 3 flight test off the west coast of Hawaii.
In September, an APL experiment, in collaboration with the Surface Targets Branch of the Naval Air Warfare Center Weapons Division, worked to advance the state of the art of collaborative, autonomous USV behaviors to higher speeds and larger numbers of vessels.
A new study has revealed similarities and relationships between certain types of chemicals found on 30 different comets, which vary widely in their overall composition compared to one another. The research is part of ongoing investigations into these primordial bodies, which contain material largely unchanged from the birth of the solar system some 4.6 billion years ago.
Andrew Merkle has been appointed the Mission Area Executive for Research and Exploratory Development at the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland. He assumed his post on Oct. 1.
Although there is significant evidence of ice on the surface of the dwarf planet Ceres, the largest object in orbit between Mars and Jupiter, an analysis of the surface geology indicates that ice is not a major factor in forming surface features, according to a paper in the September issue of Science magazine.
New findings using data from NASA’s Mars Reconnaissance Orbiter (MRO) show that gullies on modern Mars are most likely not being formed by flowing liquid water. This new evidence will allow researchers to further narrow theories as to the mechanisms behind the formation of gullies on Mars, and help reveal more details about Mars’ recent geologic processes.
The APL-built JEDI is one of several instruments aboard NASA’s Juno spacecraft — set to enter Jupiter orbit on July 4 — that will help scientists answer fundamental questions about the solar system’s largest planet, Earth and the universe.
New findings have revealed that the ring current – an electrical current carried by energetic ions that encircles our planet – behaves in a much different way than previously understood.
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