Sandia National Laboratories and its nuclear security enterprise partners recently completed the first production unit of a weapon assembly responsible for key operations of the W88 nuclear warhead.
A novel experiment aimed at studying the mechanics of amyloid fibrils — a type of protein aggregation associated with diseases like diabetes, Alzheimer’s, and Parkinson’s — started today aboard the International Space Station (ISS), led by a team at Rensselaer Polytechnic Institute.
As data science and artificial intelligence transform a range of fields, the University of Georgia is making a significant investment in faculty with expertise in using big data to address some of society’s most urgent challenges.
Researchers at the Paul Scherrer Institute PSI and ETH Zurich have investigated the extent to which direct capture of carbon dioxide (CO2) from the ambient air can help to effectively remove greenhouse gases from the atmosphere.
The use of artificial intelligence and machine learning enable new insights to help diagnose illness, suggest specific courses of treatment and follow patient’s progress
Katie Sautter, a postdoctoral scientist at Argonne National Laboratory, is building new, exquisite, atomically engineered materials that will be used for quantum communication. Her work is part of Q-NEXT, a DOE National Quantum Information Science Research Center.
As reported in a new article in Nature Reviews Physics, instead of waiting for fully mature quantum computers to emerge, Los Alamos National Laboratory and other leading institutions have developed hybrid classical/quantum algorithms to extract the most performance—and potentially quantum advantage—from today’s noisy, error-prone hardware.
Brain-computer interfaces (BCIs) are emerging assistive devices that may one day help people with brain or spinal injuries to move or communicate. BCI systems depend on implantable sensors that record electrical signals in the brain and use those signals to drive external devices like computers or robotic prosthetics.
As part of a larger goal to model the energy use of every building in the nation, researchers from Oak Ridge National Laboratory have analyzed 178,000 buildings using the Argonne Leadership Computing Facility.
New technology, using robotics and AI, is supercharging efforts to protect grape crops and will soon be available to researchers nationwide working on a wide array of plant and animal research.
The Korea Institute of Civil Engineering and Building Technology (KICT) has announced the development of an 'AI-based automatic pothole detection system'.
In the spring, the University of Alabama in Huntsville (UAH) Department of Atmospheric and Earth Science will become the home base for a new instrument designed to help scientists study aerosols in the atmosphere.
When a medical imaging exam provides a clinical benefit, the only risk that should be considered is the exam itself rather than a patient's previous radiation exposure, according to a statement from the American Association of Physicists in Medicine, the American College of Radiology and the Health Physics Society, citing potential adverse effects on patient care.
In addition to providing vitamin D, helping flowers grow and creating the perfect excuse to head to the beach, sunlight also helps break down chemicals in streams, lakes and rivers. Michigan Tech’s Daisuke Minakata has developed a comprehensive reactive activity model that shows how singlet oxygen’s reaction mechanisms perform against a diverse group of contaminants and computes their half-life in a natural aquatic environment.
Computer scientists have developed a new compiler framework, called Swivel, to protect WebAssembly, or Warm, against Spectre attacks—the class of execution attacks, which exploit the way processors predict the computations that need to happen next.
Steve Polzin, Ph.D., recently completed an appointment as the senior advisor for research and technology in the Office of the Assistant Secretary for Research and Technology at the DOT, and provided expert testimony to the Senate Subcommittee in May. He offers insight about Biden's new plan for electric vehicles.
Atlantic Health System’s Morristown Medical Center and Overlook Medical Center recently began pioneering the field of “mixed reality” technology to enhance outcomes in shoulder, hand and upper extremity surgeries. Mixed reality technology provides a virtual hologram that is projected adjacent to the patient during surgery, enabling the surgeon to synthesize online preoperative planning software with real time data analysis during shoulder replacement surgery. This groundbreaking technology enhances the highest level of precision and may in some cases shorten the length of surgery.
Increased air pollution in recent years has exacerbated health risks for people who suffer from pulmonary diseases and these dynamics underscore the importance of increasing the efficacy of drug delivery devices that administer active pharmaceutical ingredients to treat respiratory illnesses. In Physics of Fluids, researchers describe developing a computational evaluation of drug delivery through both pressurized metered-dose inhalers and dry powder inhalers to determine how the process can be improved.
Bradley Wallin has been named Lawrence Livermore National Laboratory’s (LLNL’s) principal associate director (PAD) for Weapons and Complex Integration (WCI), Lab Director Kimberly Budil announced today. In this role, Wallin will lead the Laboratory's nuclear weapons program in its responsibilities to support U.S. strategic deterrence by assuring the safety, security and effectiveness of the nation’s nuclear weapons stockpile and by providing the science, technology and engineering capabilities and experts required to enable and advance this essential responsibility.
A recently completed study shows that six hours of leisure-time physical activity per week at the age of 11 reduces the risk of being overweight at 14 years of age associated with heavy use of digital media.
The tragic collapse of the Champlain Towers South condominium in Surfside, Florida, and the difficult recovery efforts that ensued, left many people wondering whether there could be a quicker and safer way to search for survivors and recover victims.
Four first-of-a-kind 3D-printed fuel assembly brackets, produced at the Department of Energy’s Manufacturing Demonstration Facility at Oak Ridge National Laboratory, have been installed and are now under routine operating conditions at the Tennessee Valley Authority’s Browns Ferry Nuclear Plant Unit 2 in Athens, Alabama.
With a shared vision to inspire kids to learn 21st-century skills, Arizona State University and Encantos, the global story-teaching platform, today announced at the ASU+GSV Summit a groundbreaking partnership to launch a first-of-its-kind elementary curriculum partnership that inspires students with next generation skills
If heart attacks blared a warning signal, patients would have a better chance of avoiding them. That’s the idea behind a new imaging technique developed by a Spartan-led team of researchers.
Mayo Clinic researchers and colleagues at Massachusetts Institute of Technology (MIT) have developed a rapid-sealing paste that can stop bleeding organs independent of clotting. The details are published in Nature Biomedical Engineering.
The inspiration for this paste? Barnacles.
Smartphones have made multi-tasking easier, more understandable, and at times compulsive. But in social settings, these devices can lead to a form of contemporary rudeness called phone snubbing, or phubbing, the act of ignoring one’s companions to pay attention to a phone.
The Princeton Plasma Physics Laboratory announced that accomplished engineer Ruben Fair, has been named head of the ITER Department, heading PPPL's ITER Team, which is focused on the design and fabrication of six diagnostics for the international fusion experiment.
University of Minnesota Twin Cities researchers have invented a cheaper, safer, and simpler technology that will allow a “stubborn” group of metals, such as the Pt-group elements, to be transformed into thin films for various practical applications. The technology has been patented and is receiving interest from industry.
Argonne and the New York Power Authority are collaborating to determine how the utility’s infrastructure may be affected by extreme weather and other hazards.
Torrential rain and flooding have dominated the weather over the past few weeks. To forecast these weather events with greater accuracy and gain a better understanding of them against the backdrop of global climate change, ETH Zurich and partners are developing a new generation of high-resolution weather and climate models.
Because there is no ethical way to extract brain tissue from patients to look for clues about how amyloid plaques and protein aggregates proliferate, supplementary techniques are needed to better understand the progression of Alzheimer's disease. During ACA's 71st annual meeting, Abdullah Al Bashit, from Northeastern University, will discuss using computational techniques to help address these challenges. His work demonstrates how using small and wide-angle scattering along with state-of-the-art detection techniques will help probe the molecular structure and proliferation.
Q-NEXT adds two new corporate partners to its collaboration: Verizon and Zurich Instruments. Q-NEXT, a DOE National Quantum Information Science Research Center led by Argonne, aims to develop the technology to control and transmit quantum information.
Educational institutions have had to transition to remote learning and exam taking. This has led to an increase in the use of online proctoring services to curb student cheating. In a first-of-its-kind study, researchers explored the security and privacy perceptions of students taking proctored exams.
People’s social behavior, reflected in their mobility data, is providing scientists with a way to forecast the spread of COVID-19 nationwide at the county level. Researchers have developed the first data-driven deep learning model with the potential to predict an outbreak in COVID-19 cases two weeks in advance. Feeding the mobility data to epidemiological forecasting models helps to estimate COVID-19 growth as well as evaluating the effects of government policies such as mandating masks on the spread of COVID-19.
Toxicological Sciences delivers cutting-edge research in toxicology in the areas of clinical and translational toxicology, emerging technologies, and more in the August 2021 issue.
A new report led by PNNL identifies the top 13 most promising waste- and biomass-derived diesel blendstocks for reducing greenhouse gas emissions, other pollutants, and overall system costs.
The U.S. Department of Energy (DOE) announced recently $73 million in funding to advance quantum information science research to aid in better understanding the physical world and harness nature to benefit people and society. Aaron Rury, Ph.D., assistant professor of chemistry in Wayne State’s College of Liberal Arts and Science, is the recipient of one of 29 projects funded by the DOE.
ICDS's two-day Fall Symposium will be held Oct. 6 and 7, bringing together researchers from around the U.S. to discuss data, equity, reproducibility and other topics related to fairness in data science.
As photovoltaic technology continues to progress, PV devices' applications in harvesting energy from indoor ambient light have become more realistic. Some combinations of PV material and light source can be more efficient in converting power than the same material under solar illumination, and a better understanding of these relationships is needed to fully characterize the behavior of solar cells under very low illumination conditions.
As more devices require recharging their batteries, researchers are looking to ambient lighting as a potential source of generating small amounts of power for indoor devices. The researchers used one lighting source, a white LED akin to normal brightness for indoor lights, to test three different modules -- a gallium indium phosphide semiconductor, a gallium arsenide semiconductor, and a silicon semiconductor. The light source peaked in intensity on the shorter wavelengths of light.
Traditionally used energy harvesting technologies, like photovoltaic panels or wind turbines, suffer from several limitations. In the absence of daylight and wind, neither of the two can supply any power. In the case of ocean buoys, a potential solution is omnipresent: wave energy. Abundant, predictable, and consistent, the ocean's waves can be used to power navigation buoys. Researchers have developed sphere-based triboelectric nanogenerators that can be incorporated directly into navigational buoys to provide electricity from ocean waves.
LEDs are commonly used for sterilization, and in the continued effort to combat the coronavirus pandemic, LEDs can also help inactivate SARS-CoV-2. A team in Pakistan designed far-ultraviolet LEDs at a targeted wavelength of 222 nanometers, chosen both for its ability to inactivate the virus and for being safe on human skin. They based their design on the material aluminum gallium nitride, part of a set of materials called III-nitrides which are efficient, inexpensive, and environmentally friendly.