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Nature research paper: Relativistic electron acceleration at the bow shock of Jupiter and beyond
go.nature.com/49GdTx4
Microcapsules surround a core material with a protective shell, enabling release only when triggered. APL researchers are advancing this technology to precisely control reactions for applications ranging from underwater adhesives to secure manufacturing. https://jhuapl.link/38c
APL researchers developed a novel high-performance coating system engineered to withstand extreme thermal and chemical stress. In testing, the coating protected a pulse combustion engine for 13 hours under harsh conditions, demonstrating exceptional durability. https://jhuapl.link/703
#AI and #robotics are transforming how we live, work and solve complex challenges.
In this @jhuapl.bsky.social Spotlight on Engineering, JHU CS’ Russell Taylor discusses how computer science and computer engineering intersect to shape the future of technology and medicine:
Ashutosh Dutta, electrical engineer and 5G thought leader at APL, received the Exemplary Global Service Award from the Institute of Electrical and Electronics Engineers (IEEE) for leadership in advancing next-gen communications technologies & expanding worldwide access to 5G. https://jhuapl.link/jnz
NASA Administrator Jared Isaacman visited Johns Hopkins APL for a firsthand look at the NASA Dragonfly mission and the people and technologies advancing world-changing space science, exploration, and national security missions for the nation.
Researchers from Johns Hopkins APL and @jhu.edu developed a practical, comprehensive noise-modeling framework for superconducting quantum processors that delivers a sevenfold improvement in predictive accuracy over existing approaches. https://jhuapl.link/0f2
Christopher R. Watkins of Johns Hopkins APL has received the 2026 Vice Admiral Charles E. Weakley Award from NDIA, recognizing leadership and contributions that strengthened collaboration and communication across the undersea warfare enterprise. https://jhuapl.link/858
Published in @nature.com: Research using data from the APL-built Juno/JEDI instrument aboard NASA’s Juno mission reveals relativistic electron acceleration upstream of Jupiter’s bow shock, advancing our understanding of particle acceleration across the universe. https://jhuapl.link/science-snapshot
A team at Johns Hopkins APL has developed the capability to build large language models from the ground up, positioning the Lab to support government partners in developing and adapting mission-focused AI systems for homeland defense and national security applications. https://jhuapl.link/9a8
YouTube video by Johns Hopkins Applied Physics Laboratory
Scientists at Johns Hopkins APL successfully tested an innovative chemical destruction system known as the Pulse Combustion Engine. Critical to the successful test were the development and application...
Johns Hopkins APL researchers are using encapsulation, a technique that traps reactive chemicals inside microscopic shells, to control when materials activate and advance applications such as underwat...
Ashutosh Dutta, an electrical engineer and 5G thought leader, has been recognized by the Institute of Electrical and Electronics Engineers (IEEE) for his efforts to promote global awareness and develo...
Researchers from Johns Hopkins APL and Johns Hopkins University have developed a practical, comprehensive noise-modeling framework for quantum computers. Their work, published in PRX Quantum, offers a...
Christopher Watkins, chief mission engineering and integration officer at APL, received the 2026 Vice Admiral Charles E. Weakley Award from NDIA’s Undersea Warfare Division in recognition of his susta...
NASA’s Juno observations show relativistic electron acceleration at the bow shock of Jupiter and establish a universal scaling law linking shock size to maximum cosmic ray energy.
A team at APL has developed the capability to build a large language model from the ground up, positioning the Laboratory to support its government partners in developing custom LLMs and adapting exis...
