What could desert rocks tell us about life on Mars?
Los Alamos National Laboratory
Carol Burns, executive officer for the Deputy Director for Science, Technology & Engineering at Los Alamos National Laboratory, was selected as the recipient of the 2021 American Chemical Society’s (ACS) Francis P. Garvan‒John M. Olin Medal.
Los Alamos National Laboratory recently began using HPE Apollo 80 Systems from Hewlett Packard Enterprise (HPE) that feature Fujitsu A64FX Arm processors for evaluation of some of the most demanding physical simulation workloads in the world.
New Mexico companies seeking to develop new technology products may qualify for technical assistance from the state’s two national laboratories.
When NASA’s Perseverance rover lands on Mars in February after its seven-month-long journey, the mission will only just be beginning.
Los Alamos and Sandia national laboratories and six other U.S. Department of Energy institutions are hiring in a variety of areas via a virtual job fair Wednesday, August 26, from 8 a.m. to 2 p.m. (MDT) to help fill more than 600 open positions. Of those, 54 are at Los Alamos.
Today, Mars is an arid, dusty, and frigid landscape with an average temperature of minus 80 degrees Fahrenheit—inhospitable to life as we know it. But it wasn’t always that way.
Los Alamos National Laboratory computer scientists have developed a new artificial intelligence (AI) system that may be able to identify malicious codes that hijack supercomputers to mine for cryptocurrency such as Bitcoin and Monero.
Combing through historical seismic data, researchers using a machine learning model have unearthed distinct statistical features marking the formative stage of slow-slip ruptures in the earth’s crust months before tremor or GPS data detected a slip in the tectonic plates. Given the similarity between slow-slip events and classic earthquakes, these distinct signatures may help geophysicists understand the timing of the devastating faster quakes as well.
Deniece Korzekwa, of Los Alamos National Laboratory’s Sigma Division, has been named Senior Fellow for outstanding leadership and seminal contributions to nuclear weapons manufacturing science, global security initiatives and international scientific exchanges involving plutonium and uranium.
To have dependable power to explore the the frigid surface of Mars, NASA’s Perseverance rover is equipped with a type of power system called a radioisotope thermoelectric generator (RTG)—which is what the latest episode of Mars Technica will tell listeners all about.
New 2D and 3D computer modeling of impacts on the asteroid Psyche, the largest Main Belt asteroid, indicate it is probably metallic and porous in composition, something like a flying cosmic rubble pile.
NASA’s new Perseverance rover, which just started its seven-month journey to Mars, carries on board what is likely the most versatile instrument ever created to understand the planet’s past habitability: SuperCam—and a new podcast will tell listeners all about it.
Could Jezero Crater hold the keys to unlocking an ancient and hidden past when life might have existed on the Martian surface?
A multi-institution team has used positron beams to probe the nature of radiation effects, providing new insight into how damage is produced in iron films.
Using a quantum computer to simulate time travel, researchers have demonstrated that, in the quantum realm, there is no “butterfly effect.” In the research, information—qubits, or quantum bits—“time travel” into the simulated past.
Ning Xu of the Actinide Analytical Chemistry group at Los Alamos has been selected as a member of the 2020 class of Fellows of the American Chemical Society (ACS).
When NASA’s Perseverance rover launches from Florida on its way to Mars, it will carry aboard what is likely the most versatile instrument ever made to better understand the Red Planet’s past habitability.
A new device that relies on flowing clouds of ultracold atoms promises potential tests of the intersection between the weirdness of the quantum world and the familiarity of the macroscopic world we experience every day.
New research revealed that tiny, sunlight-absorbing particles in wildfire smoke may have less impact on climate than widely hypothesized because reactions as the plume mixes with clean air reduce its absorbing power and climate-warming effect.
Tiny, 3D printed cubes of plastic, with intricate fractal voids built into them, have proven to be effective at dissipating shockwaves, potentially leading to new types of lightweight armor and structural materials effective against explosions and impacts.
Research out today in the journal Cell shows that a specific change in the SARS-CoV-2 coronavirus virus genome, previously associated with increased viral transmission and the spread of COVID-19, is more infectious in cell culture.
For the first time, seismologists can characterize signals as a result of some industrial human activity on a continent-wide scale using cloud computing. In two recently published papers in Seismological Research Letters, scientists from Los Alamos National Laboratory demonstrate how previously characterized “noise” can now be viewed as a specific signal in a large geographical area thanks to an innovative approach to seismic data analyses.
Novel quantum dot solar cells developed at Los Alamos National Laboratory match the efficiency of existing quantum-dot based devices, but without lead or other toxic elements that most solar cells of this type rely on.
New research has found that El Niño events are often associated with droughts in some of the world’s more vulnerable tropical regions. Associated with warmer than average ocean temperatures in the eastern Pacific, El Niños can in turn influence global weather patterns and tropical precipitation, and these changes can lead to massive plant die-offs if other extreme factors are also at play.
The Texas A&M University System National Laboratories Office (NLO) and Los Alamos National Laboratory have formed a collaborative research effort to make extremely large data sets indexable and more easily searchable.
Los Alamos National Laboratory’s Efficient Mission Centric Computing Consortium (EMC3) recently welcomed its first international partner, the South African National Integrated Cyberinfrastructure System (NICIS).
New measurements confirm, to the highest energies yet explored, that the laws of physics hold no matter where you are or how fast you’re moving.
Researchers at Los Alamos National Laboratory are reinventing the mirror, at least for microwaves, potentially replacing the familiar 3-D dishes and microwave horns we see on rooftops and cell towers with flat panels that are compact, versatile, and better adapted for modern communication technologies.
New Mexico companies who find themselves up a creek without venture capital to ferry them across the research and development gap from invention to commercialization may receive a life-preserver thanks to a new law recently passed by the New Mexico Legislature and signed by Governor Michelle Lujan Grisham.
A new machine-learning computer model accurately predicts damaging radiation storms caused by the Van Allen belts two days prior to the storm, the most advanced notice to date, according to a new paper in the journal Space Weather.
Applying deep learning to seismic data has revealed tremor and slip occur at all times—before and after known large-scale slow-slip earthquakes—rather than intermittently in discrete bursts, as previously believed.
Just over a year after Los Alamos National Laboratory launched the Efficient Mission Centric Computing Consortium (EMC3), 15 companies, universities and federal organizations are now working together to explore new ways to make extreme-scale computers more efficient.
Candace Culhane, a program/project director in Los Alamos National Laboratory’s Directorate for Simulation and Computation, has been selected as the general chair for the 2022 SC Conference (SC22).
New numbers for fiscal year 2019 show Los Alamos National Laboratory’s big impact on New Mexico’s economy, as the Laboratory employed 12,041 people for a total of $1.16 billion in salaries and contracted with small businesses statewide for $288.6 million.
Take biomass-derived acetone—common nail polish remover—use light to upgrade it to higher-mass hydrocarbons, and, voila, you have a domestically generated product that can be blended with conventional jet fuel to fly while providing environmental benefits, creating domestic jobs, securing the nation’s global leadership in bioenergy technologies, and improving U.S. energy security.
Los Alamos scientists have incorporated meticulously engineered colloidal quantum dots into a new type of light emitting diodes (LEDs) containing an integrated optical resonator, which allows them to function as lasers.
Nine sources of extremely high-energy gamma rays comprise a new catalog compiled by researchers with the High-Altitude Water Cherenkov (HAWC) Gamma-Ray Observatory.
Los Alamos National Laboratory announced today at CES 2020 that it is joining the cloud-based IBM Q Network as part of the Laboratory’s research initiative into quantum computing, including developing quantum computing algorithms, conducting research in quantum simulations, and developing education tools.
Scientists at Los Alamos and international partners have created the first 3-D images of a special type of RNA molecule that is critical for stem cell programming and known as the “dark matter” of the genome.
Michelle Thomsen, a Los Alamos National Laboratory fellow and guest scientist, was awarded the John Adam Fleming Medal by the American Geophysical Union today at a ceremony in San Francisco, Calif.
Santa has always run a one-sleigh operation, but a new analysis could help him speed deliveries and save energy, if he ever decided to add a drone to his route.
Extreme drought’s impact on plants will become more dominant under future climate change, as noted in a paper out today in the journal Nature Climate Change. Analysis shows that not only will droughts become more frequent under future climates, but more of those events will be extreme, adding to the reduction of plant production essential to human and animal populations.
Nine Los Alamos National Laboratory technologies won R&D 100 Awards and three inventions have won Special Recognition Awards, including a Gold and Silver for Corporate Social Responsibility, and a Gold Award for Market Disruptor Products.
A probabilistic artificial intelligence computer model developed at Los Alamos National Laboratory provided the most accurate state, national, and regional forecasts of the flu in 2018, beating 23 other teams in the Centers for Disease Control and Prevention’s FluSight Challenge. The CDC announced the results last week.
Los Alamos National Laboratory scientists Brian Albright, Patrick Chain, Dana Dattelbaum, Michael Hamada, Anna Hayes-Sterbenz, Michael Prime and Laura Smilowitz are being honored as 2019 Laboratory fellows.
Los Alamos National Laboratory scientists have synthesized magnetically-doped quantum dots that capture the kinetic energy of electrons created by ultraviolet light before it’s wasted as heat.
The surface of Mars was once home to shallow, salty ponds that went through episodes of overflow and drying, according to a paper published today in Nature Geoscience.
Los Alamos National Laboratory and Arm are teaming up to make efficient, workload-optimized processors tailored to the extreme-scale computing requirements of the Laboratory’s national-security mission.