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Strategic Deterrence

DOE, LLNL take center stage at inaugural artificial-intelligence expo

Lawrence Livermore National Laboratory (LLNL) Director Kim Budil and other LLNL staff joined Department of Energy (DOE) Deputy Secretary David Turk, National Nuclear Security Administration (NNSA) Administrator Jill Hruby, DOE Under Secretary for Science and Innovation Geraldine Richmond, DOE Director of the Office of Critical and Emerging Technologies Helena Fu, U.S…

Meet LLNL: systems administrator Patrick Craig

When Patrick Craig joined Lawrence Livermore National Laboratory (LLNL) in April 2021, he welcomed the opportunity to engage with employee resource groups (ERGs) he identifies with and reconnect with his own identities. Craig is a proud veteran of the U.S. Navy and current member of the U.S. Navy Reserves. One of the things he appreciates about being at LLNL is the…

FAA awards first approval for drone swarm testing

Lawrence Livermore National Laboratory’s (LLNL) Autonomous Sensors team has received the Federal Aviation Administration’s (FAA’s) first and — to date — only certificate of authorization (COA) allowing autonomous drone swarming exercises on the Lab main campus. These flights will test swarm controls and sensor payloads used in a variety of national security applications…

LLNL leads successful execution of subcritical experiment in Nevada

Lawrence Livermore National Laboratory (LLNL) recently led the successful execution of the first U.S. subcritical experiment (SCE) since 2021 at the Principal Underground Laboratory for Subcritical Experimentation (PULSE) facility, formerly known as the U1a Complex, at the Nevada National Security Site (NNSS). The last LLNL-led SCE was in February 2019. The experiment —…

Jupiter Laser Facility gets a reboot

Fifty years ago, the first laser, Janus, was installed in Building 174 (renamed the Jupiter Laser Facility in 2006) at Lawrence Livermore National Laboratory. Additional lasers, more than 100 Ph.D.s granted time on the system and thousands of international users later, the Jupiter Laser Facility (JLF) celebrated its grand reopening Thursday after a four-year refurbishment,…

LLNL hosts Early Career Information Day focused on advanced materials and manufacturing

The University of California (UC) and Lawrence Livermore National Laboratory (LLNL) have a storied history going back to the founding of the Laboratory in 1952. The work conducted at the Lab since that time has benefited in many areas from successful collaboration with researchers and contributors within the UC system. In the spirit of continued collaboration, a UC Early…

Hot stuff: A new thermal pathway for a high explosive

TATB (1,3,5-triamino-2,4,6-trinitrobenzene) is an important explosive compound because of its extensive use in munitions and world-wide weapons systems. Despite its importance, researchers have been trying to understand its response to temperature extremes for the past 50 years. A Lawrence Livermore National Laboratory (LLNL) team has uncovered a new thermal decomposition…

Strategic Deterrence Academic Collaboration Team awards six scientists to support collaborative research

Six scientists at the Lawrence Livermore National Laboratory (LLNL) were recently granted awards through the Lab’s 2023 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…

Excellence recognized at NNSA Defense Programs Awards for 2022 achievements

In a virtual ceremony held Dec. 14, Lawrence Livermore National Laboratory (LLNL) and the National Nuclear Security Administration (NNSA) recognized six teams of LLNL researchers with the Defense Programs Award of Excellence. One additional award was acknowledged following the ceremony. The awards commend outstanding contributions made in calendar year 2022. LLNL Deputy…

Watching aluminum’s reaction under extreme pressure

Understanding laser material interactions has applications that include inertial confinement fusion, material research and equation of state studies. Laser ablation, and specifically increasing the pressure that can be achieved from a laser system, is a longstanding topic of scientific research with implications ranging from damage in layered devices like solar cells and…

Unlocking gas phase uranium oxidation is key to nuclear debris modeling

In the quest to understand how nuclear debris forms, a team of scientists at Lawrence Livermore National Laboratory (LLNL) has developed an approach to studying the oxidation mechanism of gas phase uranium in extreme environments. In research recently published in Scientific Reports, the team outlined their work, which combined experimental data from a plasma flow reactor …

Scorpius Accelerator: 24 line-replaceable units mark major milestone

Members of Lawrence Livermore National Laboratory’s (LLNL’s) Advanced Sources and Detectors (ASD) Scorpius accelerator team recently marked a major milestone in the project — the delivery of 24 line-replaceable units (LRUs), known as pulsers, forming a complete unit cluster. The LRUs will power the Scorpius electron beam accelerator, which will capture multiple X-ray…

New research shows successful ab initio crystal structure prediction of energetic materials

New research by Lawrence Livermore National Laboratory researchers and collaborators from Carnegie Mellon University (CMU) demonstrates that crystal structure prediction is a useful tool for studying the various ways the molecules can pack together, also known as ubiquitous polymorphism, in energetic materials. The research also shows promise of becoming an integral part…

W87-1 Modification Program enters Phase 6.3, Development Engineering

The Department of Energy’s National Nuclear Security Administration (NNSA) and the Department of Defense (DoD) recently approved the W87-1 Modification Program to enter Phase 6.3, Development Engineering, through the Nuclear Weapons Council. During this phase of the nuclear weapons lifecycle process, NNSA will continue to work closely with DoD to conduct experiments, tests…

Sandia and LLNL team successfully execute second W80-4 abnormal thermal environment test

Lawrence Livermore National Laboratory (LLNL) and Sandia National Laboratories (Sandia) recently successfully executed the second joint abnormal thermal environment (ATE-2) test for the W80-4 Life Extension Program (LEP). Carried out at Sandia’s Cross Wind Test Facility in New Mexico, ATE-2 was a fast-heat, fully engulfing system-level fuel fire test, the first for LLNL in…

LLNL introduces Advanced Characterization and Evaluation Laboratory and manufacturing facility

Lawrence Livermore National Laboratory (LLNL) and directorate leadership held dual ribbon-cutting ceremonies on May 24, officially marking the opening of the Lab’s Advanced Characterization and Evaluation Laboratory (ACEL) and newest advanced manufacturing facility. The ACEL will serve LLNL’s Nondestructive Evaluation (NDE) group and the Nondestructive Characterization…

Six Lab scientists partner with university researchers through WCI’s ACT Awards

Six scientists at Lawrence Livermore National Laboratory were recently granted awards through the Lab's 2022 Academic Collaboration Team (ACT) annual call for proposals. Now in their fourth year, ACT university collaboration awards were created to encourage and advance strategic partnerships among universities with a focus on the Lab’s and Weapons and Complex Integration’s…

W80-4 Life Extension Program enters Phase 6.4, production engineering

In March, the Department of Energy’s National Nuclear Security Administration's Deputy Administrator for Defense Programs approved the W80-4 Life Extension Program (LEP) to transition into Phase 6.4, Production Engineering. The W80-4 LEP achieved Phase 6.4 entry following successful execution of the Preliminary Design Review and Acceptance Group Review and the System…

Ignition experiment advances stockpile stewardship mission

Third in a series of articles describing the elements of Lawrence Livermore National Laboratory's fusion breakthrough. When scientists at Lawrence Livermore National Laboratory (LLNL) achieved fusion ignition at the National Ignition Facility (NIF) on Dec. 5, 2022 — an extraordinary scientific breakthrough that was decades in the making — the primary mission and driving…

LLNL team demonstrates anisotropic explosive properties in key weapon safety study

Lawrence Livermore National Laboratory (LLNL) scientists and engineers led a multi-institutional team in executing a series of high explosives tests that successfully demonstrated fundamental principles of anisotropy, a possible enabler for improved weapon and munition safety. Working under snowy and frigid conditions on Idaho’s Snake River Plain, a 13-member team from…