James TenCate Elected Acoustical Society of America Fellow
Los Alamos National LaboratoryLos Alamos National Laboratory mechanical engineer James TenCate was recently elected fellow by the Acoustical Society of America (ASA).
Los Alamos National Laboratory mechanical engineer James TenCate was recently elected fellow by the Acoustical Society of America (ASA).
A new study has found that plants regulate their leaf temperature with some independence from the surrounding air temperature, a trait that increases carbon uptake through photosynthesis.
Eight Los Alamos National Laboratory innovations were selected as finalists for the 2016 R&D 100 Awards, which honor the top 100 proven technological advances of the past year as determined by a panel selected by R&D Magazine.
A new class of fuel cells based on a newly discovered polymer-based material could bridge the gap between the operating temperature ranges of two existing types of polymer fuel cells, a breakthrough with the potential to accelerate the commercialization of low-cost fuel cells for automotive and stationary applications.
Los Alamos National Laboratory will give technical assistance to three fuel-cell technology companies
Los Alamos National Laboratory chemist David L. Clark has been selected as the 2017 recipient of the Glenn T. Seaborg Award for Nuclear Chemistry, sponsored by the American Chemical Society Division of Nuclear Chemistry and Technology.
A new study at Los Alamos National Laboratory and in collaboration with Stanford Synchrotron Radiation Lightsource greatly improves scientists’ understanding of the element actinium. The insights could support innovation in creating new classes of anticancer drugs.
A moment of inspiration during a wiring diagram review has saved more than $2 million in material and labor costs for the Trinity supercomputer at Los Alamos National Laboratory.
The triggering of small, deep earthquakes along California’s San Andreas Fault reveals depth-dependent frictional behavior that may provide insight into patterns signaling when a major quake could be on the horizon, according to a paper released this week by the Proceedings of the National Academy of Sciences (PNAS).
New software is enabling ChemCam, the laser spectrometer on NASA’s Curiosity Mars rover, to select rock targets autonomously—the first time autonomous target selection is available for an instrument of this kind on any robotic planetary mission.
In a step that could bring perovskite crystals closer to use in the burgeoning solar power industry, researchers from Los Alamos National Laboratory, Northwestern University and Rice University have tweaked their crystal production method and developed a new type of two-dimensional layered perovskite with outstanding stability and more than triple the material’s previous power conversion efficiency.
A team of researchers from Los Alamos National Laboratory and Curtin University in Australia developed a theoretical model to forecast the fundamental chemical reactions involving molecular hydrogen.
Making an explosive safer tends to reduce its performance, while increasing its performance typically makes it somewhat less stable. So the question is: Can you create an explosive that performs just as well as conventional explosives, but is safer?
he discovery of manganese oxides in Martian rocks might tell us that the Red Planet was once more Earth-like than previously believed.
Two Los Alamos National Laboratory projects are among technologies supported in today’s U.S. Department of Energy (DOE) announcement of nearly $16 million in funding to help businesses move promising energy technologies from DOE’s National Laboratories to the marketplace.
If you use a process to get the hydrazine to help, you create hydrogen from water by changing conductivity in a semiconductor, a transformation with wide potential applications in energy and electronics.
New molecular dynamics research into how RNA folds into hairpin-shaped structures called tetraloops could provide important insights into new treatments for retroviral diseases.
A new study has found both the cause and a solution for the pesky tendency of perovskite solar cells to degrade in sunlight, a research breakthrough potentially removing one roadblock to commercialization for this promising technology.
Researchers recently demonstrated how an informatics-based adaptive design strategy, tightly coupled to experiments, can accelerate the discovery of new materials with targeted properties
Innovative multidisciplinary research in nuclear and particle physics and cosmology has led to the development of a new, more accurate computer code to study the early universe
Space scientist Roger Wiens was awarded the honorary title of chevalier (knight) in France’s Academic Order of Palms for his work in forging strong ties between the French and American scientific communities.
Los Alamos and Sandia National Laboratories have recently conducted plutonium experiments using Sandia's pulsed power Z Machine that have reached regions of pressure, temperature and density in plutonium never before explored in the laboratory.
A new 3-D modeling and data-extraction technique is about to transform the field of X-ray crystallography, with potential benefits for both the pharmaceutical industry and structural biology.
New research illuminating water’s critical role in forming catalysts for oxygen reduction in materials has revealed the key to designing next-generation carbon nanomaterials with enhanced performance for fuel cells and batteries.
Seagate Technology (NASDAQ: STX) and Los Alamos National Laboratory (Los Alamos) are researching a new storage tier to enable massive data archiving for supercomputing. The joint effort is aimed at determining innovative new ways to keep massive amounts of stored data available for rapid access, while also minimizing power consumption and improving the quality of data-driven research.
Four small businesses will work with Los Alamos National Laboratory to accelerate the nation’s transformation toward a clean energy economy as part of the Department of Energy’s Small Business Vouchers pilot project. The businesses will gain access to world-class laboratory resources to help move innovative technologies closer to the marketplace.
Permafrost covers a considerable part of the Arctic; it’s been thawing in recent decades, releasing greenhouse gases. New research reveals that similarly ancient ice wedges that form the prevalent honeycomb pattern across the tundra appear to be melting rapidly across the Arctic.
Researchers at the U.S. Department of Energy’s (DOE) Argonne and Los Alamos national laboratories have teamed up to support a DOE initiative through the creation of the Electrocatalysis Consortium (ElectroCat), a collaboration devoted to finding an effective but cheaper alternative to platinum in hydrogen fuel cells.
Scientists have a new tool for unraveling the mysteries of how diseases such as HIV move through a population, thanks to insights into phylogenetics, the creation of an organism’s genetic tree and evolutionary relationships.
A paper in the latest issue of the journal Nature suggests a common ancestor of apes and humans, Chororapithecus abyssinicus, evolved in Africa, not Eurasia, two million years earlier than previously thought.
Gravitational waves were predicted by Einstein’s theory of general relativity in 1916, and now, almost exactly 100 years later, the faint ripples across space-time have been found. The advanced Laser Interferometric Gravitational-wave Observatory (aLIGO) has achieved the first direct measurement.
Innovative new imaging systems designed at Los Alamos National Laboratory are helping physicists peer into the roiling world of superhot plasmas as they test a promising alternative approach to harnessing fusion energy.
Researchers at Los Alamos National Laboratory are investigating the complex relationships between the spread of the HIV virus in a population (epidemiology) and the actual, rapid evolution of the virus (phylogenetics) within each patient’s body.
Nanoscale engineering boosts performance of quantum dot light emitting diodes
Storage of the nation's excess actinide metals, including plutonium and uranium, present a myriad of problems from pollution concerns to proliferation risk. Solid-state chemists at the Department of Energy's Los Alamos National Laboratory have discovered a new reaction process that may prove to be a solution to some of the most serious storage problems.
Scientists at Los Alamos National Laboratory have developed a technology that could make the coming transition from current analog television to high-definition television a whole lot easier.
Scientists at the Department of Energy's Los Alamos National Laboratory are watching simple knots untie themselves in order to gain a better understanding of how granular materials flow and how filamentary objects like DNA molecules tangle. (American Physical Society's Physical Review Letters, 2-21-01)
Scientists at the Department of Energy's Los Alamos National Laboratory have developed a new technology application that could all but eliminate the use of hazardous corrosives and the production of wastewater in the fabrication of integrated circuits, or chips, for computers.
The Spanish term "El Nino" has been used for centuries by South American fishermen to describe the annual occurrence of warm, southward-flowing oceanic current waters off the coast of Ecuador and Peru around Christmas. El Nino, or the child, specifically refers to the Christ child.
Scientists at the Los Alamos National Laboratory and the University of Queensland's Centre for Quantum Computer Technology in Australia have made an advance in the quest for a functional quantum computer by exploiting currently existing technology in a novel and unexpected way.
With its orbital checkout phase complete, the Multispectral Thermal Imager satellite is inaugurating the scientific-data development stage of its three-year mission by starting to provide pictures of the fire-ravaged Los Alamos area.
Using a technique called neutral atom imaging from a satellite high above the North Pole, researchers at the Los Alamos National Laboratory are developing pictures of the magnetosphere, an invisible magnetic layer around the Earth. These pictures will be essential to a better understanding of the "weather" in space.
Analyses performed on a sliver of terrestrial rock by the Department of Energy's Los Alamos National Laboratory may one day help researchers better understand the makeup of large extraterrestrial bodies such as Mars, comets and asteroids.
For three days last May, scientists at the Department of Energy's Los Alamos National Laboratory and the Massachusetts Institute of Technology watched as the solar wind all but disappeared.