Air pollution and greenhouse gas emissions from two coal - fired power plants in the Four Corners area of northwest New Mexico, the largest point source of pollution in America, were measured remotely by a Los Alamos
National Laboratory team.
Not exact matches
This year, though, a
team from Lawrence Livermore
National Laboratory has developed an approach that uses a regular laser - sintering printer to control the microscopic grain structure of the metal.
In 1999, a
team led by Geoffrey West from Los Alamos
National Laboratory suggested the reason for this law lies in fractals — mathematical, self - replicating patterns such as the one shown above.
The new concept was developed by a
team led by W.M. Keck Professor of Energy Yang Shao - Horn, graduate student Sokseiha Muy, recent graduate John Bachman PhD» 17, and Research Scientist Livia Giordano, along with nine others at MIT, Oak Ridge
National Laboratory, and institutions in Tokyo and Munich.
What's more, an independent
team, led by Saul Perlmutter at the Lawrence Berkeley
National Laboratory, California, had arrived at the same result.
An international
team led by researchers with the Lawrence Berkeley
National Laboratory (Berkeley Lab) has developed a new technique for identifying gene enhancers — sequences of DNA that act to amplify the expression of a specific gene — in the genomes of humans and other mammals.
A paper by one
team that includes astronomers at Penn State, NASA, Los Alamos
National Laboratory, and universities in Italy, the United Kingdom, and Germany has been accepted for future publication in the Monthly Notices of the Royal Astronomical Society.
For the past five years, Lawrence Livermore
National Laboratory (LLNL) weapon physicist Greg Spriggs and a crack
team of film experts, archivists and software developers have been on a mission to hunt down, scan, reanalyze and declassify these decomposing films.
The
team collaborated with colleagues at Los Alamos
National Laboratory (LANL), working closely with its archivist Alan Carr to gain access to the test films in LANL's vault.
To figure out just how tiny and penetrating those galena crystals are, a
team of investigators from the Center for Research and Restoration of the Museums of France (C2RMF), L'Oral Research and Argonne
National Laboratory soaked blond hairs in a solution of the Greco - Roman chemicals for up to three days.
Using the huge laser power of the US
National Ignition Facility, a
team led by Brian MacGowan of the Lawrence Livermore
National Laboratory in California have managed to squeeze fuel into spheres for the first time.
It was conducted by a
team of scientists at the University of Colorado, Boulder, the Cooperative Institute for Research in Environmental Sciences (CIRES) and the
National Oceanic and Atmospheric Administration's Earth System Research
Laboratory.
Collaborating with Mahesh Neupane, a computational physicist at Army Research Laboratories, and Dennis Nordlund, an X-ray spectroscopy expert at Stanford University's SLAC
National Accelerator
Laboratory, Monti's
team used a tunable, high - intensity X-ray source to excite individual electrons in their test samples and elevate them to very high energy levels.
The
team measured the hardness of the beta form of the crystal in conjunction with colleagues at Texas A&M University's Turbomachinery
Laboratory and at the
National High Magnetic Field
Laboratory at Florida State University, Morosan and Svanidze also performed other comparisons with titanium.
Dr Joseph Hodges, from the
National Institute of Science and Technology in Gaithersberg, USA who led the
team measuring the spectrum of CO2 in the
laboratory, said: «These measurements are very challenging so we could only make precise lab measurements at a few wavelengths.
The common name for this problem is a «combinatorial explosion,» and the solution to it, called «rule - based modeling,» was developed 12 years ago by VCell
team member Michael Blinov and colleagues James Faeder and William Hlavacek, who all worked during that time at Los Alamos
National Laboratory.
A scientific
team led by the Department of Energy's Oak Ridge
National Laboratory has found a new way to take the local temperature of a material from an area about a billionth of a meter wide, or approximately 100,000 times thinner than a human hair.
It may not seem like a material as thin as an atom could hide any surprises, but a research
team led by scientists at the Department of Energy's Lawrence Berkeley
National Laboratory (Berkeley Lab) discovered an unexpected magnetic property in a two - dimensional material.
An international
team of researchers, including three from the U.S. Department of Energy's Brookhaven
National Laboratory, has tracked nitrogen as soil bacteria pull it from the air and release it as plant - friendly ammonium.
Working with a
team of researchers at Los Alamos
National Laboratory in New Mexico, Demkowicz investigated how helium behaves in nanocomposite solids, materials made of stacks of thick metal layers.
Neutron scattering at the Department of Energy's (DOE's) Oak Ridge
National Laboratory (ORNL) helped a multi-institutional
team led by Tulane University investigate a graphene - like strontium - manganese - antimony material (Sr1 - yMn1 - zSb2) that hosts what researchers suspect is a Weyl semimetal phase.
A
team led by scientists at Lawrence Berkeley
National Laboratory found that the type of plant inputs (that is, root or needle litter) affected total carbon and nitrogen retention over 10 years, but that soil horizon (essentially, the layer of soil, such as the topsoil organic or deeper mineral layers) affected how the litter - derived soil organic material is stabilized in the long term.
To address this concern, a
team of researchers at the U.S. Department of Energy's Oak Ridge
National Laboratory (ORNL) in Tennessee has developed a prototype system they say could let drivers cut the time needed to fully recharge from a home electrical outlet by a factor of 10 — from about eight hours to about 45 minutes.
The new atom counter, named Atom Trap Trace Analysis, or ATTA, was developed by a
team of nuclear physicists led by Zheng - Tian Lu at Argonne
National Laboratory near Chicago.
This could lead to new HIV vaccine strategies that are able to stimulate the rare precursors of these protective antibodies,» says Professor Lynn Morris, from the
National Health
Laboratory Service in the Wits School of Pathology who leads the research
team at the NICD.
The international
team's design and testing of this novel advanced material from scratch required multidisciplinary expertise and sophisticated tools from such places as Argonne
National Laboratory and ORNL, including Argonne's Advanced Photon Source and ORNL's Center for Nanophase Materials Science, says Lee.
A
team of scientists at the Vaccine Research Center (VRC) of the
National Institute of Allergy and Infectious Diseases, part of NIH, created VRC07 - αCD3 under the leadership of VRC Director John R. Mascola, M.D.; former VRC Director Gary J. Nabel, M.D., Ph.D.; and Richard A. Koup, M.D., VRC deputy director and chief of its immunology
laboratory.
For the new study, the
team used the world's strongest X-ray laser, the Linac Coherent Light Source at SLAC
National Accelerator
Laboratory in Menlo Park, California.
In a new study, researchers from the Cambridge Crystallographic Data Centre (CCDC) and the U.S. Department of Energy's (DOE's) Argonne
National Laboratory have
teamed up to capture neon within a porous crystalline framework.
The
team, led by Fenning, includes researchers from the AMOLF Institute in the Netherlands and Argonne
National Laboratory.
Livermore official Bruce Goodwin said that the design his
team submitted had a solid «test pedigree» as it was based on a previously tested weapon that was never deployed; Los Alamos
National Laboratory in New Mexico, which was the loser in the competition between the two schemes, chose to use a design that hadn't been tested.
A Columbia University
team used supercomputers at the U.S. Department of Energy's Brookhaven
National Laboratory to simulate and probe quantum mechanical processes that would be extremely difficult to explore experimentally.
The method was developed at Berkeley Lab's Advanced Light Source, a DOE Office of Science User Facility, by a
team of researchers from the Department of Energy's SLAC
National Accelerator
Laboratory, Berkeley Lab, Stanford University, and other institutions.
In the course of studying vanadium dioxide's properties, Wu and his research
team partnered with Olivier Delaire at DOE's Oak Ridge
National Laboratory and an associate professor at Duke University.
says Niranjan Govind, a computational chemist at the Pacific Northwest
National Laboratory who collaborated with the Berkeley Lab
team on the development of the method in the NWChem computational chemistry program.
A
team of researchers with the Dark Energy Survey, headquartered at the U.S. Department of Energy's Fermi
National Accelerator
Laboratory, and an independent group from the University of Cambridge jointly announced their findings today.
Working at the Linac Coherent Light Source (LCLS) X-ray laser at the Department of Energy's (DOE's) SLAC
National Accelerator
Laboratory, the scientists then used a newly designed injection system, engineered by a
team from Arizona State University, to stream the gel into the path of the X-ray pulses, which hit the crystals and produced patterns used to reconstruct a high - resolution, 3 - D model of the receptor.
The
team included researchers from Argonne, Brookhaven
National Laboratory, MIT, Purdue University and Rutgers University.
A
team of researchers from Argonne
National Laboratory, Lawrence Berkeley
National Laboratory, and the University of Wisconsin synthesized a highly active and durable class of electrocatalysts by exploiting the structural evolution of solid Pt - Ni bimetallic nanocrystals into porous cage - like structures or nanoframes.
A
team of physicists and geochemists at Argonne and Oak Ridge
National Laboratory have shown that instead of just passively observing surface reactions of minerals, they can use X-rays to create the conditions by which reactions happen while simultaneously observing them.
A
team led by the Department of Energy's Oak Ridge
National Laboratory has identified a novel microbial process that can break down toxic methylmercury in the environment, a fundamental scientific discovery that could potentially reduce mercury toxicity levels and support health and risk assessments.
With this tool, a
team of physicists and geochemists at Argonne and Oak Ridge
National Laboratory have shown that, instead of just passively observing surface reactions of minerals, they can use X-rays to create the conditions by which reactions happen while simultaneously observing them.
The
team collaborated with Oleg Gang and Yugang Zhang of Brookhaven
National Laboratory, who carried out the supporting experiments.
«Using cerium allows us to gain a fundamental understanding of a wide range of phenomena related to the multiphase properties of materials, including how strength evolves following phase transitions,» said Brian Jensen, who is a physicist and
team leader in the Shock and Detonation Physics Group at the U.S. Department of Energy's (DOE) Los Alamos
National Laboratory (LANL).
Now, a
team of physicists led by Efim Gluskin of Argonne
National Laboratory in Illinois has pushed its x-ray laser to «saturation,» at which the amplification of light intensity hits its theoretical maximum.
The
team included researchers from Johns Hopkins University, the University of Chicago, Northwestern University, the Argonne
National Laboratory, and the University of Pennsylvania.
To better understand how galactic wind affects star formation in galaxies, a two - person
team led by the University of California, Santa Cruz, turned to high - performance computing at the Oak Ridge Leadership Computing Facility (OLCF), a US Department of Energy (DOE) Office of Science User Facility located at DOE's Oak Ridge
National Laboratory (ORNL).
Now, a
team led by physicist Yimei Zhu at the U.S. Department of Energy's Brookhaven
National Laboratory has produced definitive evidence that the movement of electrons has a direct effect on atomic arrangements, driving deformations in a material's 3D crystalline lattice in ways that can drastically alter the flow of current.
A
team led by Charles R. Carrigan at Lawrence Livermore
National Laboratory (LLNL) used field experiments to build a new, complex model that predicts isotopic ratios of noble gases that would be released from such explosions (Sci.
A
team at the Pacific Northwest
National Laboratory in Washington State gathered linguistic cues from Twitter conversations about seemingly non-flu-related topics such as the weather or coffee.