Livermore scientists working alongside Stanford University researchers have made headway toward a new generation of tailored, reversible water treatment.
New work by computer scientists at Lawrence Livermore National Laboratory (LLNL) and IBM Research on deep learning models to accurately diagnose diseases from X-ray images with less labeled data won the Best Paper award for Computer-Aided Diagnosis at the SPIE Medical Imaging Conference on Feb. 19. The technique, which includes novel regularization and “self-training”…
Lawrence Livermore National Laboratory (LLNL) scientists have achieved a near 100 percent increase in the amount of antimatter created in the laboratory. Using targets with micro-structures on the laser interface, the team shot a high-intensity laser through them and saw a 100 percent increase in the amount of antimatter (also known as positrons). The research appears in…
WHO George Peridas, director of carbon management partnerships, and staff scientist Briana Schmidt from Lawrence Livermore National Laboratory. Peridas is responsible for incubating partnerships that result in the advancement and deployment of carbon management solutions and technologies, including the removal of carbon dioxide from the atmosphere, or so-called negative…
To reach economy-wide carbon neutrality by 2045 or earlier, California will likely have to capture, transport and geologically store tens of millions of tons per year of carbon dioxide (CO2) from large sources and from the atmosphere. California has an extensive regulatory framework that is rigorous, robust and will safeguard the environment, public health and safety…
What are the next world-class, game-changing concepts and technologies that will address the most important questions in astrophysics or planetary science? Lawrence Livermore National Laboratory (LLNL) researchers will soon be better equipped to answer this question with the launch this month of a new Space Science Institute (SSI), intended to boost cross-discipline…
Inertial confinement fusion (ICF) implosions require very high levels of symmetry in order to reach the high densities and temperatures required for fusion induced self-heating. Even percent-level deviations from perfect spherical symmetry can lead to significant distortions of the implosion and ultimately degrade fusion performance. To that end, researchers from Lawrence…
Inertial confinement fusion (ICF) implosions require very high levels of symmetry in order to reach the high densities and temperatures required for fusion induced self-heating. Even percent-level deviations from perfect spherical symmetry can lead to significant distortions of the implosion and ultimately degrade fusion performance. To that end, researchers from Lawrence…
Nearly a year into piloting a major scientific institution through one of the most taxing and disruptive global events in modern history, outgoing Livermore Lab Director Bill Goldstein is ready for a vacation. One of Goldstein’s first orders of business following his retirement on March 1 is returning to the lush slopes, coffee plantations and sandy beaches of Kona, Hawaii…
Craig Tarver, a Lawrence Livermore National Laboratory (LLNL) retiree and consultant to the Lab’s Energetic Materials Center, has been honored with the American Physical Society’s (APS) 2021 George E. Duvall Shock Compression Science Award for “theoretical advancement of the understanding of shock-driven reactions and detonation in condensed phase explosives.” Since 1987,…
Outflows of matter are general features stemming from systems powered by compact objects such as black holes, active galactic nuclei, pulsar wind nebulae, accreting objects such as Young Stellar Objects (YSO) and mature stars such as our sun. But the shape of those outflows, or astrophysical jets, vary depending on the magnetic field around them. In new experiments, a…
Since the dawn of civilization, metallurgy has determined the fate of powerful cities, states and empires. Blacksmiths have harnessed the power of heat to melt simple metals that would then be cast into hard, sharp and shiny alloys. Varying process conditions, such as rate of cooling and composition, can lead to new materials with dramatically different mechanical…
Lawrence Livermore National Laboratory (LLNL) scientists are leveraging their extensive experience studying the movement of airborne hazards to better understand the movement of virus-like particles through the air and to identify effective countermeasures. DNATrax released in a conference room.While the burden of airborne diseases is known to be large, its true scope is…
One year after publishing the groundbreaking "Getting to Neutral: Options for Negative Carbon Emissions in California," Lawrence Livermore National Laboratory (LLNL) has become a trusted adviser in the discussion of how to remove carbon dioxide from the air. In the report, LLNL scientists identified a robust suite of technologies to help California clear the last hurdle…
Following a terrorist bombing, can the bomb maker be identified by skin proteins left on the bomb components they handled? To address this question, Lawrence Livermore National Laboratory (LLNL) personnel from Weapons Complex Integration (WCI) and Global Security (GS) Forensic Science and Biosecurity Centers (FSC/BSC) subjected notional bomb components handled by LLNL…
Following a terrorist bombing, can the bomb maker be identified by skin proteins left on the bomb components they handled? To address this question, Lawrence Livermore National Laboratory (LLNL) personnel from Weapons Complex Integration (WCI) and Global Security (GS) Forensic Science and Biosecurity Centers (FSC/BSC) subjected notional bomb components handled by LLNL…
On Aug. 4, 2020, a massive explosion rocked Lebanon’s capital of Beirut, sending shockwaves through the city and shattering windows, reducing some buildings to rubble and killing at least 200 people. Officials have since traced the blast to a stockpile of more than 2,500 tons of confiscated ammonium nitrate stored in a port warehouse. While the official investigation is…
Meet Kirsten Howley, the real-life astrophysicist working to prevent an asteroid “Armageddon” In the 1998 movie “Armageddon,” an asteroid the width of Texas is about to hit Earth. The heroes who stop it in the nick of time are a group of orange-suited Americans, all men. Life isn’t always like the movies. Not that an asteroid couldn’t slam into Earth, mind you. Asteroids —…
Advances in astronomical observations have resulted in the discovery of an extraordinary number of extrasolar planets, some of which are believed to have a rocky composition similar to Earth. Learning more about their interior structure could provide important clues about their potential habitability. Led by Lawrence Livermore National Laboratory (LLNL), a team of…
Lawrence Livermore National Laboratory (LLNL) computer scientists have developed a new deep learning approach to designing emulators for scientific processes that is more accurate and efficient than existing methods. In a paper published by Nature Communications, an LLNL team describes a “Learn-by-Calibrating” (LbC) method for creating powerful scientific emulators that…