3D simulations improve understanding of energetic-particle radiation and help protect space assets

New reactor-liner alloy material offers strength, resilience

Magnetic configuration effects on the Wendelstein 7-X stellarator

Scientists have overestimated meteor sizes

International team turns on world’s largest stellarator with innovative new imaging systems designed at Los Alamos

Laboratory fusion researchers use Titan supercomputer to burst helium bubbles.

Hoffman wins DOE Early Career Research Award

Bruce Carlsten wins prestigious Wilson Prize

Los Alamos honors three for research, leadership with Fellows Prizes

Laboratory lands 2018 DOE Energy Frontier Research Center

Top young Los Alamos researchers honored with DOE Early Career Awards

Seven Los Alamos scientists, including 5 sponsored by the DOE Office of Science [Htoon (BES), Kawano (NP), Lewellen (HEP), Trugman (BES), Zapf (BES)], honored by American Physical Society as APS Fellows

Carlsten, Nguyen and Sheffield win Free-Electron Laser Prize

David L. Clark selected for 2017 Glenn T. Seaborg Award for Nuclear Chemistry

Ten Los Alamos scientists, including four sponsored by the DOE Office of Science, honored by American Physical Society

Los Alamos scientist Christopher Lee to receive DOE Office of Science Early Career Award

Laboratory Chemist selected as the 2015 recipient of the F. Albert Cotton Award in Synthetic Inorganic Chemistry.

Laboratory FES PI selected as Fellow by the APS Division of Plasmas Physics

Laboratory researcher Joel Rowland to receive 2014 DOE Early Career Award

Los Alamos Physicist Honored with 2013 E.O. Lawrence Award in  Condensed Matter and Materials Sciences

Neutron reactions and climate uncertainties earn Los Alamos scientists DOE Early Career awards

Probing wet fire smoke in clouds: Can water intensify the Earth's warming?

Advanced Capabilities for Representing Waves with Earth System Models, a Key Process in coastal Storm Surge Impacts

Up to 15 inches of sea-level rise from ice sheets by 2100 predicted by international modeling collaboration

The Traits of Microbes Matter in Microbial Carbon Cycling and Storage

Studies find less impact from wildfire smoke on climate

El Niño-linked decreases in soil moisture could trigger massive tropical-plant die offs

Expedition drifts in the Arctic ice to study climate

Unraveling the mysteries of the tiniest living things

Drought impact study shows new issues for plants and carbon dioxide

Microbes are metabolic specialists

Hunt is over for one of the "Top 50 Most-Wanted Fungi"

Insight into enzyme's 3D structure could cut biofuel costs

Neutrons used to study model vascular systems

Melting ice may change shape of Arctic river deltas

Polar convergences

Simulating ice at the bottom of the world: Modeling the Antarctic ice sheets

User Executive Committee Profile: Aerosols advocate

Rapid lake draining on ice sheets changes how water moves in unexpected ways

Arctic ice model upgrade to benefit polar research, industry and military

Arctic greening thaws permafrost, boosts runoff

New approach to extracting fossil fuels has benefits

Community-driven sea ice modeling with CICE Consortium

New high-resolution exascale Earth-modeling system announced for energy

Modeling deep water three-dimensional upwelling pathways in the Southern Ocean

ARM Successfully Completes Challenging Antarctic Atmospheric Study

Understanding Ice Loss in Earth's Coldest Regions

Rapid ice-wedge melting accelerates permafrost decline

Scientists study glaciers in McMurdo Dry Valleys in Antarctica

Desert Scientists Turn to Rainforest for Climate Answers

Meltwater effects on flow of Greenland’s ice sheet less severe for sea level rise than earlier feared

As Forests Disappear, Examining the Mechanisms of Their Death

Lighting the Way for Nanotube Innovation

Advancing Understanding of Heavy Elements at the Edge of the Periodic Table

Uranium compound achieves record anomalous Nernst conductivity

New class of versatile, high-performance quantum dots primed for medical imaging, quantum computing

Lack of symmetry in qubits can't fix errors in quantum computing, but might explain matter/antimatter imbalance

The quantum butterfly non-effect

Simulating quantum 'time travel' disproves butterfly effect in quantum realm

Machine learning unearths signature of slow-slip quake origins in seismic data

Quantum time travel doesn't follow Back to the Future rules

Quantum dot solar cells get greener

Efficient, "green" quantum-dot solar cells exploit defects

Improved Catalyst Branches Out and Out-Performs

No Strain, No Gain! Breakthrough in 2D Material that Produces Single Photons

Machine fault

Novel approach lets scientists draw superconducting patterns

Opening access to explore the synthetic chemistry of neptunium

Artificial intelligence takes on earthquake prediction

Machine-learning competition boosts earthquake prediction capabilities

New, smaller X-ray spectrometers developed

Squeezed quantum dots produce more stable light

More stable light comes from intentionally 'squashed' quantum dots

Carbon nanotube optics poised to provide pathway to optical-based quantum cryptography and quantum computing

Researchers discover novel exciton interactions in carbon nanotubes

Self-healing damage at the atomic level

Tweaking quantum dots powers-up double-pane solar windows

Quantum dots amplify light with electrical pumping

Chemical treatment improves quantum dot lasers

Single-photon emitter has promise for quantum info-processing

Superconductivity research reveals potential new state of matter

Using nanotubes to create single photons for quantum communication

Turning windows into solar panels

Cooling, time in the dark preserve perovskite solar power

Novel water-removal technique boosts performance of carbon nanomaterials

Los Alamos Offers New Insights Into Radiation Damage Evolution

International Business Times selects Los Alamos luminescent solar concentrators as one of their "10 amazing tech innovations in 2014C

Los Alamos develops new technique for growing high-efficiency perovskite solar cells

An ordered nanomaterial from bulk processing

HAWC Gamma Ray Observatory discovers origin of highest-energy cosmic rays in the galaxy

Los Alamos scientist find a way to quickly test rust on graphene-protected cars, planes, ships

Hidden neutrino particles may be a link to the dark sector

Evgenya Simakov: Then and Now / 2010 Early Career Award Winner

Building better electron sources with graphene

Astrophysics Signal Does What the LHC Cannot: Constrain Quantum Gravity and String Theory

Galactic gamma-ray sources reveal birthplaces of high-energy particles

How do you make the world's most powerful neutrino beam?

Using quantum computers to test the fundamentals of physics

How HAWC landed in Mexico

Quantum computers to clarify the connection between the quantum and classical worlds

The Large Hadron Collider

LHCb discovers matter-antimatter asymmetry in charm quarks

The plot thickens for a fourth neutrino

Newly detected microquasar gamma-rays 'call for new ideas'

State-of-the-art photocathodes grown on atomically thin layers of graphene

Public lectures explore the impact of particle accelerators

New elementary particle evidence found, 'sterile neutrino' long suspected

Synopsis: A missing piece in the neutrinoless beta-decay puzzle

MiniBooNE scientists demonstrate a new way to probe the nucleus with muon neutrinos

Observatory in Mexico sheds light on origin of excess positrons in outer space

Neutrino research takes giant leap forward

HAWC telescope’s first sky map shows flickering black holes

An international team of astrophysicists has completed an advanced detector to map the most energetic phenomena in the universe

A team of scientists generated a giant cosmic simulation and now they're giving it away