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Academic Engagement
AI expands what research projects students can accomplish at LLNL’s STEM with Phones workshop
Forget spreadsheets. At Lawrence Livermore National Laboratory’s (LLNL) STEM with Phones student workshop, students are using smartphones and artificial intelligence (AI) to conduct advanced scientific analysis. Led by LLNL’s David Rakestraw, participants in the program discover how to turn a tool already in their pocket — a smartphone — into an instrument for…
Meet LLNL: Laser Material Interaction Deputy Group Leader Sonny Ly
Sonny Ly has built a career at Lawrence Livermore National Laboratory (LLNL) combining laser physics, materials science and mentorship. A deputy group leader in the Laser Material Interaction Science Group within the Materials Science Division under Physical and Life Sciences, Ly first came to the Lab in 2010 as a graduate student from the University of California, Davis…
LLNL named 2026 Manufacturer of the Year by AMBayArea
Lawrence Livermore National Laboratory (LLNL) has been named the 2026 Manufacturer of the Year in the large manufacturer category by the Association of Manufacturers Bay Area (AMBayArea), recognizing the Lab’s leadership in advanced manufacturing, engineering and national security innovation. The award was announced April 21 during the AMBayArea Summit at the Chabot Space …
New protein-screening platform accelerates rare-earth separation for U.S. supply chain
To ensure a robust domestic supply chain in the U.S., Lawrence Livermore National Laboratory (LLNL) scientists are using bacterial proteins to separate the rare-earth elements that are ubiquitous in magnets, batteries and electronics. These proteins, called lanmodulin, evolved in bacteria that use rare-earth elements to power their metabolism. But to scale up and advance…
Looking into the void to cancel out material instabilities
Picture two materials sandwiched together. The boundary between them may appear flat, but, in reality, it is full of tiny bumps and dents. Suddenly, the materials are hit with a shockwave. If that wave hits a bump in the material interface, it slows down. If it hits a dent, it accelerates forward. This imbalance creates fast, narrow jets of material — called the Richtmyer…
Weapons Physics & Design ACT awards drive university partnerships and research
Lawrence Livermore National Laboratory (LLNL) has announced five research teams selected for awards through the Lab’s FY26 Academic Collaboration Team (ACT) annual call for proposals. Awards support university research partners for up to three years to perform research in collaboration with Lab scientists and offer an important way to build long-term connections with…
All 50 episodes of the Big Ideas Lab now available on LLNL podcast page
Lawrence Livermore National Laboratory’s (LLNL) Big Ideas Lab podcast marks a new milestone with the release of its 50th episode. The latest episode, delving into high-performance computing for energy innovation, can be found alongside the entire series on the new LLNL podcast page. Since its debut in September 2024, the Big Ideas Lab has aimed to rethink how science…
Grad student Wyatt Larrinaga explores how proteins bind to radioactive elements for fellowship at LLNL
As a fifth-year graduate student at the Pennsylvania State University, Wyatt Larrinaga investigates how proteins can be used to separate lanthanides. These elements, plus two others, make up the rare earth elements that are critical for technology, defense and a robust domestic energy supply. But somewhere along the way, Larrinaga grew interested in branching out. Or,…
LLNL delivers advanced gamma-ray spectrometer for NASA’s Dragonfly mission to explore Titan
Hundreds of millions of miles away from Earth, the landscape of Titan, Saturn’s largest moon, bears a striking resemblance to our own planet — but with dunes of hydrocarbon sands rather than silica sands, and rain, rivers, lakes and seas of liquid methane and ethane rather than liquid water. The NASA Dragonfly mission is set to explore this world in unprecedented detail…
Science at the State invites students on a cosmic hunt for stardust in meteorites on April 11
Lawrence Livermore National Laboratory (LLNL) is again partnering with the State Theatre in Modesto for the next “Science at the State” event, happening on Saturday, April 11. This year’s program, titled “Cosmic Treasure Hunt: Finding Stardust in Meteorites,” will feature a scientific presentation paired with the family-friendly film Ice Age Collision Course (rated PG)…
Cryogenic micro-calorimetry offers a novel material-dating method for nuclear forensics and safeguards
The moment nuclear material is produced, processed or purified, it sets off a hidden countdown, marked by the half-life of its radioactive atoms as they begin to decay. For scientists tracking the origins of these substances, decoding this natural clock is crucial for verifying material histories in support of global security efforts. In a new study published in the…
LLNL optics expert Wren Carr named SPIE Fellow
Lawrence Livermore National Laboratory’s (LLNL) Wren Carr was recently selected as a Fellow of SPIE, the international society for optics and photonics. He is the science and technology group leader for National Ignition Facility (NIF) laser-induced damage and mitigation science. “I feel honored to be recognized by SPIE for my leadership, mentorship and technical…
Engineered yeast produce acids needed to refine rare-earth elements
From mining to magnet manufacturing, the process for refining rare-earth elements is complex and intensive. The supply chain for such critical materials is dominated by China — and so is the oxalic acid needed for the separation and purification stages. To move toward a U.S. supply chain for rare-earth element recovery, researchers from Lawrence Livermore National…
LLNL-led study uses machine learning, veterans’ health records to identify ALS drug-repurposing candidate
A Lawrence Livermore National Laboratory (LLNL)-led team of scientists and computational engineers has identified several existing medications that may be associated with longer survival in people with amyotrophic lateral sclerosis (ALS), using one of the largest electronic health record datasets ever assembled for ALS. Published in The Lancet Digital Health, the study…
Advanced Radiographic Capability achievements featured in Physics of Plasmas
Lawrence Livermore National Laboratory’s National Ignition Facility (NIF) is the hottest place on earth for the briefest of moments during an experiment. Now, it can be one of the brightest places thanks to the Advanced Radiographic Capability (ARC), NIF’s laser-within-the-laser. How this is possible and how it’s measured is detailed in the cover paper of the December 2025…
Finding resonance: How LLNL expertise is amplifying collaboration in quantum computing
In November, the Department of Energy Office of Science renewed the Superconducting Quantum Materials and Systems Center (SQMS), hosted by Fermi National Accelerator Laboratory, with $125 million over the next five years to accelerate breakthroughs in quantum information science. The investment continues to unite more than 300 experts from 43 partner institutions across…
STEM San Joaquin celebrates third year of inspiring young minds
STEM San Joaquin marked its third anniversary on Saturday, Nov. 15, at the University of the Pacific (UOP) in Stockton. Co-sponsored by Lawrence Livermore National Laboratory (LLNL) and UOP, the annual event welcomed students in grades 6–9 for a day of hands-on science, technology, engineering and math (STEM) exploration. The conference is organized by a dedicated team of…
LLNL, UT & UCSD win Gordon Bell Prize with exascale tsunami forecasting
Researchers at Lawrence Livermore National Laboratory (LLNL), the University of Texas at Austin’s (UT) Oden Institute and Scripps Institution of Oceanography at the University of California San Diego (UCSD) on Nov. 20 were awarded the prestigious 2025 Association for Computing Machinery (ACM) Gordon Bell Prize for developing a real-time tsunami early-warning framework…
Gordon Bell finalist team pushes scale of rocket simulation on El Capitan
Researchers used Lawrence Livermore National Laboratory’s (LLNL) exascale supercomputer El Capitan to perform the largest fluid dynamics simulation ever — surpassing one quadrillion degrees of freedom in a single computational fluid dynamics (CFD) problem. The team focused the effort on rocket–rocket plume interactions. El Capitan is funded by the National Nuclear Security…
Miniaturized ion traps show promise of 3D printing for quantum-computing hardware
Researchers at Lawrence Livermore National Laboratory (LLNL), the University of California (UC) Berkeley, UC Riverside and UC Santa Barbara have miniaturized quadrupole ion traps for the first time with 3D printing — a breakthrough in one of the most promising approaches to building a large-scale quantum computer. Quadrupole ion traps have four electrode poles that create…
