Under the nighttime California sky, NASA’s Electrojet Zeeman Imaging Explorer (EZIE) launched aboard a SpaceX Falcon 9 rocket ...

A team at Johns Hopkins APL is creating an artificial intelligence-driven capability that automates much of the work that ...

Producing high-performance titanium alloy parts — whether for spacecraft, submarines or medical devices — has long been a slow, resource-intensive process. Even with advanced metal 3D-printing ...

APL’s STEM Program Management Office is committed to helping students and teachers develop their literacy and competency in STEM. Our mission is to develop our nation’s STEM talent. We do this through ...

Dr. Paul K. Lambert is a senior engineer with a background in ferrous metallurgy, alloy design, high-strain-rate mechanical properties, microscopy, and computational materials engineering. He has ...

Joining APL’s Talent Community is a great way to learn more about the Laboratory, our culture, and future opportunities.

The ASPIRE application period for 2025 has closed. All students, regardless of acceptance, will be notified of their status by May 15. Applicants are strongly encouraged to review their schedules to ...

The ASPIRE program does not prioritize students with the highest GPA, the most experience, or the strongest resume. Instead, mentors choose students based on a variety of criteria. Most mentors look ...

MegaWika: Millions of Reports and Their Sources Across 50 Diverse Languages (arXiv preprint) Synthetic Cross-Language Information Retrieval Training Data (arXiv preprint) To Burst or Not to Burst: ...

A signature APL facility that dates back to the Sputnik era is playing a pivotal role for one of NASA’s most critical lunar ...