The rain in Spain may lie mainly on the plain, but the location and intensity of that rain is changing not only in Spain but around the globe. A new study by Lawrence Livermore National Laboratory scientists shows that observed changes in global (ocean and land) precipitation are directly affected by human activities and cannot be explained by natural variability alone.
The first solids to form in the solar system contain unusual isotopic signatures that show a...
Researchers from Lawrence Livermore National Laboratory (LLNL) and the Swiss Federal Institute...
Scientists have used the powerful x-ray laser at the SLAC National Accelerator Laboratory to create movies detailing trillionths-of-a-second changes in the arrangement of copper atoms after an extreme shock. The study pinpointed the precise breaking point when the extreme pressures began to permanently deform the copper structure, or lattice, so it could no longer bounce back to its original shape.
A research team, led by the Univ. of California, Santa Cruz, developed a solar-microbial device that combines a microbial fuel cell (MFC) and a photoelectrochemical cell (PEC). In the MFC component, bacteria degrade organic matter in the wastewater, generating electricity. The biologically generated electricity is delivered to the PEC component to assist the solar-powered splitting of water that generates hydrogen and oxygen.
A team of Lawrence Livermore National Laboratory (LLNL) researchers has pioneered the use of a long-standing technology for a new application—analyzing the chemical composition of uranium samples. In a paper published in Applied Spectroscopy, LLNL scientists describe the first reported use of near-infrared spectrometry to study the chemical properties of uranium ore concentrates, also called yellowcake.
Human influences have directly impacted the latitude/altitude pattern of atmospheric temperature. That is the conclusion of a new report by scientists from Lawrence Livermore National Laboratory and six other scientific institutions. The research compares multiple satellite records of atmospheric temperature change with results from a large, multimodel archive of simulations.
The science and engineering capabilities that underpin the nuclear weapons stockpile stewardship and nonproliferation missions at the nation’s three national security laboratories are “healthy and vibrant,” says a new report from the National Research Council. The committee that wrote the report found no problems with the quality of science and engineering that would prevent certification of the stockpile.
Researchers from Lawrence Livermore National Laboratory and Florida-based Chemergy Inc. plan to demonstrate an innovative bioenergy technology that converts wastewater treatment plant byproducts into hydrogen gas to produce electricity. The $1.75 million project will demonstrate an integrated system on a limited industrial scale at the Delta Diablo Sanitation District facility in Antioch, Calif.
A Lawrence Livermore National Laboratory-developed biological detection technology has been employed as part of an international collaboration that has detected a virus in bladder cancers. The research is believed to be the first study to demonstrate an association between Kaposi's sarcoma-associated herpesvirus (KSHV), also known as human herpesvirus 8, and bladder cancers.
Computers process information quickly, but they perform sequentially. Because clock speeds have stalled, future performance gains come almost solely from running sets of instructions concurrently. This will force fundamental changes for all computer components, making co-design (collaborative, simultaneous development of all system components) essential. Developed by a team led by Sandia National Laboratories, Mantevo Suite 1.0 is a promising approach to co-design.
Using carbon nanotubes, a research team in Switzerland and California has developed a sensor that greatly amplifies the sensitivity of commonly used but typically weak vibrational spectroscopic methods, such as Raman spectroscopy. This type of sensor makes it possible to detect molecules present in the tiniest of concentrations.
Fiber lasers and amplifiers are common in a number of national defense applications. Increasing the average power of these lasers is straightforward: Use multiple lasers in multi-mode operation. However, to maintain the ability to focus, single-mode operation is often necessary. Scientists at Lawrence Livermore National Laboratory have developed Efficient Mode-Converters for High-Power Fiber Amplifiers as a way to help developers scale fiber-based laser installations to higher power levels while still retaining effective focus.
Lawrence Livermore National Laboratory has developed an accelerated high-throughput pulse screener, Laser SHIELD (Screening at High-throughput to Identify Energetic Laser Distortion), that can identify harmful pulses across 48 locations using a single, real-time 34-GHz oscilloscope.
One of the most overlooked threats to human health is poor indoor air quality. Various air pollutants exist indoors, including biological pollutants, secondhand smoke, combustion pollutants and other chemicals, and can pool in spaces with inadequate ventilation. Determining the source of pollution is often the first step in improving air quality. Lawrence Livermore National Laboratory’s DNA TRAX, a safe simulant material made with non-biological DNA, can track and quantify indoor airflow.
On Aug.13, 2013, Lawrence Livermore National Laboratory's National Ignition Facility (NIF) focused all 192 of its ultrapowerful laser beams on a tiny deuterium-tritium filled capsule. In the nanoseconds that followed, the capsule imploded and released a neutron yield of nearly 3x1015, or approximately 8,000 joules of neutron energy, approximately three times NIF's previous neutron yield record for cryogenic implosions.
Outbreaks such as the severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome coronavirus (MERS) have afflicted people around the world, yet many people think these trends are on the decline. Quite the opposite is true. The efforts to combat this epidemic are being spearheaded by a team of Lawrence Livermore National Laboratory scientists.
Iron is the most abundant element in Earth's core and the sixth most abundant element in the universe. As a key component of terrestrial planets and exoplanets, iron has been one of the most studied materials under extreme conditions. In a series of campaigns using the OMEGA laser at the Univ. of Rochester, researchers compressed iron up to 5.6 million atmospheres, a record pressure for solid iron.
Andrea Schmidt and her plasma research team received a big boost recently by procuring a $1-million award from the Defense Advanced Research Projects Agency (DARPA), a U.S. Dept. of Defense agency. The award will be used to fund their groundbreaking work in both modeling and experiments of a classic plasma configuration, the Z-pinch.
The use of plasmonic black metals could someday provide a pathway to more efficient photovoltaics to improve solar energy harvesting, according to researchers at Lawrence Livermore National Laboratory (LLNL). The LLNL Materials Engineering Div. research team has made breakthroughs experimenting with black metals. These nanostructured metals are designed to have low reflectivity and high absorption of visible and infrared light.
Americans used more natural gas, solar panels and wind turbines and less coal to generate electricity in 2012, according to the most recent U.S. energy charts released by Lawrence Livermore National Laboratory. Natural gas use is up in the electricity generation sector, where it has basically substituted directly for coal, while sustained low natural gas prices have prompted a shift from coal to gas in the electricity generating sector.
Each year, the Lawrence Livermore National Laboratory releases energy flow charts that track the nation's consumption of energy resources. According to the most recent charts, Americans used more natural gas, solar panels and wind turbines and less coal to generate electricity in 2012.
Three National Nuclear Security Administration (NNSA) sites where The Babcock & Wilcox Co. (B&W) operates have been selected as recipients of R&D Magazine's 2013 R&D 100 Awards. Sites honored include the Y-12 National Security Complex, Lawrence Livermore National Laboratory, and Los Alamos National Laboratory.
Lawrence Livermore National Laboratory researchers are the recipients of five 2013 R&D 100 awards. With this year's results, the Laboratory has captured a total of 148 R&D awards since 1978. U.S. Dept. of Energy national laboratories received a total 36 awards in this year's judging.
When Lawrence Livermore National Laboratory physicist Maxim Umansky flipped through the news, a startling underwater survival story caught his attention. In May, a boat cook survived a 60-hour underwater ordeal 100 feet below the surface after his tugboat sank near the Nigerian coast. Harrison Okene's survival underwater while the rest of the crew perished was astounding.
Tiahne-2, or Milky Way-2, a supercomputer developed by China's National Univ. of Defense Technology, is the new No. 1 ranked machine on the industry-standard Top500 list of the world's most powerful high-performance computing (HPC) systems.
Lawrence Livermore National Laboratory researchers, for the first time, have created movies of irreversible reactions that occur too rapidly to capture with conventional microscopy. The team used multiframe, nanosecond-scale imaging in the dynamic transmission electron microscope to create movies of the crystallization of phase-change materials used for optical and resistive memory.
Using data derived from nuclear weapons testing of the 1950s and '60s, Lawrence Livermore National Laboratory scientists have found that a small portion of the human brain involved in memory makes new neurons well into adulthood. The research may have profound impacts on human behavior and mental health.
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