Vol. 51, No. 3, (Fall 2018)
Editorial The wartime lab- The top-secret laboratory
- Wigner's influence at ORNL
- Enrico Fermi and the Chicago Pile
- ORNL and the University of Chicago
- Making the most of neutrons
- Radiation and you
- A nuclear lab in peacetime
- Weinberg saves ORNL
- Oak Ridge spreads the nuclear knowledge
- A successful project never gets off the ground
- A swimming pool reactor in Geneva
- The house the Russells built
- New challenges
- Where no one has gone before
- Plugged into battery safety
- Zachary Taylor's deadly snack
- Pioneering mass spectrometry
- Beads on a string: Discovering the nucleosome
- ORNL in the 21st century and beyond
- The growth of computing at ORNL
- ORNL hosts VIP visitors
- Materials for nuclear environments
- Neutrons and quantum materials
- UT-ORNL partnerships benefit students
- Skilled tradespeople keep ORNL running
- Microscopy and computing for futuristic materials
- Materials for the world
- Billion-dollar impacts from ORNL innovations
Vol. 51, No. 2, (Spring 2018)
- Editorial: Leading a tech revolution
- To the Point: Analyses of creek algae help predict methylmercury, graphene method may boost 2D materials, ORNL's go-to expert in the vehicle tech market
- Artificial Intelligence Artificial intelligence is about to revolutionize science, AI: An experimentalist's experience, scaling deep learning for science, why Summit is suited for artificial intelligence, AI challenges for the Summit supercomputer (infographic)
- Focus on Smart Homes: Neighborhood gets smart about energy use with ORNL tech
- Focus on Smart Cities: City of Oak Ridge partners on advanced urban planning tool
- Infographic: Solving big problems with artificial intelligence
- Focus on Physical Sciences: Better catalysts boost yields, decrease costs
- Focus on Hydropower: Hydropower's future is small & modular
- Focus on Computing: Cell's 'vacuum cleaners' modeled atom by atom, critical neurotransmitter modeled on Titan
- Focus on Materials: ORNL-developed alloy promises better fuel economy, custom-designed alloy enhances nuclear safety
- Focus on Neutrons: Neutrons search for clues to combat bacterial threats, neutrons probe ecofriendly enzyme
- Why Science? Young researchers explain
- Time Warp: ORNL dips a toe into artificial intelligence
Vol. 51, No. 1, (Winter 2018)
- Editorial: Solving the country’s biggest problems
- To the Point: Former ORNL acting director dies, lab wins nine R&D 100 Awards, Cassini crashes into Saturn, five become AAAS fellows
- ORNL Advances Additive Manufacturing: Moving into the future with 3D printing, printing better materials, controlling the quality of printed parts, biomaterials for additive manufacturing
- Focus on Bioenergy: Accelerating biofuels development: A conversation with ORNL’s Jerry Tuskan
- Focus on Neutrons: Neutrons improve underwater welds, neutron tool captures catalysis in the act
- Focus on Earth Sciences: Peatlands hold carbon even in warming environment
- Infographic: What will happen to peatlands as they warm?
- Focus on Neutrinos: World’s smallest neutrino detector confirms prediction from Standard Model
- Focus on Computing: Predicting flood wave behavior with 3D models, assembling life’s molecular motor
- Early Career Award Winners: How are elements made? A conversation with physicist Kelly Chipps, replicating the sun: A conversation with fusion scientist David Green, understanding atomic structure and function: A conversation with condensed matter physicist Zac Ward, understanding how organisms work together: A conversation with biologist David Weston
- Eugene Wigner Distinguished Lecturers: William D. Phillips, Martin Karplus
- Why Science? Young researchers explain
- Time Warp: The workers behind the science
Vol. 35, No. 3, ( 2002)
New Pathways to Research- Materials Research at ORNL: A Distinguished Past, A Bright Future (Editorial by Jim Roberto)
- HTML User Centers Help U.S. Industry
- HFIR’s Cold Neutrons for New Materials Insights
- SNS Instruments for Materials Research
- Leading Nanofab Lab for ORNL
- Mapping Materials in 3D Using X rays
- Seeing the Unseen in a New Microscope Lab
- Environmentally Quiet Building
- Award-Winning Characterization Tool
- From Ordinary Alloys to Extraordinary Materials
- Niche Applications for ORNL’s Nickel Aluminides
- ORNL Breaks into Metallic Glass Field
- Materials Processing Using ORNL’s Powerful Lamp
- Making Better Billets
- Synthesizing Polymers to Make Sensors
- Nanoporous Materials for Novel Catalysts
- Exploring Carbon Nanotubes
- Self-Assembled Film for Aligning Carbon Nanotubes
- How Do Carbon Nanotubes Grow?
- Carbon Nanotubes and Chemistry
- Improving Superconductors and Semiconductors
- Unlocking Mysteries of the Nanoscale
- Neutron Science, Nanoscience, and New Simulations
- Predicting a Model Weld
- Novel Materials for Homeland Security
- Hot Spotter: Detecting Radiation from Suspicious Packages
- Faster Computers through Carbon Foam?
Vol. 35, No. 2, ( 2002)
Energy Security- Editorial: Energy Security—Providing Secure Energy Supplies and Protecting Our Energy Infrastructure
- Nuclear Energy: Assuring Future Energy Supplies
- Methane Extraction and Carbon Sequestration
- Gas Pipeline Safety: ORNL’s Role
- Energy from Biomass: Nature’s Power
- Fuel Cells for Buildings and Vehicles
- Clean Coal Power Technologies
- ORNL and Oil Research
- Water and Energy Security
- The Future of Fusion Energy: Meeting National Energy Goals
- ORNL Technologies for Energy Infrastructure Assurance
- Optical Seals for Containers
- Responding to Energy-Related Emergencies
- Power Grid of the Future
- Improving the Global Standard of Living: Aid from ORNL
Vol. 35, No. 1, ( 2002)
Supercomputing for Science- Supercomputing for Science—ORNL’s Commitment to Scientific Discovery
- A National Resource at ORNL: Supercomputers Support Superb Science
- ORNL’s Powerful Tools for Scientific Discovery
- New Home Planned for 10-Teraflops Supercomputer
- Developing Computer Tools for Scientists
- ORNL Leads Effort to Build Better Supercomputer Centers
- From the Stone Age to the Lego Block Age of Computing
- ORNL, IBM, and the Blue Gene Project
- Evaluating Supercomputer Performance
- Retaining and Retrieving Data More Effectively
- Networking: Making Faster Connections among Supercomputers
- Networking for More Powerful Supercomputers
- Visualization Tools: Interacting with Data in Many Dimensions
- Collaborations and Partnerships
- Modeling Magnetic Materials
- The Science Grid
- Designing Electronic Devices Using Supercomputers
- Simulating Supernovae on Supercomputers
- Probing Cells by Computer
- Modeling Blood Flow during CPR
- World-Class Climate Modeling
- SciDAC Funding for Local Climate Modelers
- Chemical Experiments and Predictions by Computer
- Computer Modeling Aids Understanding of Plasma Physics
- Car Crash Simulations May Improve Vehicle Efficiency
- Evaluating Vehicle Emissions Controls
- Computer Modeling and Homeland Security