Filter News
Area of Research
- Advanced Manufacturing (1)
- Biological Systems (1)
- Biology and Environment (11)
- Clean Energy (28)
- Computational Biology (1)
- Fusion and Fission (15)
- Fusion Energy (5)
- Isotopes (4)
- Materials (43)
- Materials for Computing (5)
- National Security (3)
- Neutron Science (14)
- Nuclear Science and Technology (8)
- Supercomputing (29)
News Type
News Topics
- (-) Biomedical (29)
- (-) Fusion (31)
- (-) Materials Science (52)
- (-) Physics (33)
- (-) Polymers (11)
- (-) Quantum Computing (20)
- (-) Transportation (32)
- 3-D Printing/Advanced Manufacturing (39)
- Advanced Reactors (9)
- Artificial Intelligence (47)
- Big Data (25)
- Bioenergy (51)
- Biology (59)
- Biotechnology (12)
- Buildings (23)
- Chemical Sciences (24)
- Clean Water (15)
- Climate Change (52)
- Composites (7)
- Computer Science (87)
- Coronavirus (18)
- Critical Materials (2)
- Cybersecurity (14)
- Decarbonization (49)
- Education (1)
- Emergency (2)
- Energy Storage (34)
- Environment (107)
- Exascale Computing (25)
- Fossil Energy (4)
- Frontier (25)
- Grid (25)
- High-Performance Computing (43)
- Hydropower (5)
- Isotopes (29)
- ITER (2)
- Machine Learning (23)
- Materials (41)
- Mathematics (6)
- Mercury (7)
- Microelectronics (2)
- Microscopy (23)
- Molten Salt (1)
- Nanotechnology (20)
- National Security (37)
- Net Zero (8)
- Neutron Science (50)
- Nuclear Energy (58)
- Partnerships (15)
- Quantum Science (31)
- Renewable Energy (1)
- Security (12)
- Simulation (30)
- Software (1)
- Space Exploration (12)
- Summit (30)
- Sustainable Energy (46)
- Transformational Challenge Reactor (3)
Media Contacts
Researchers used quantum simulations to obtain new insights into the nature of neutrinos — the mysterious subatomic particles that abound throughout the universe — and their role in the deaths of massive stars.
In May, the Department of Energy’s Oak Ridge and Brookhaven national laboratories co-hosted the 15th annual International Particle Accelerator Conference, or IPAC, at the Music City Center in Nashville, Tennessee.
Close on the heels of its fourth summer school, the Quantum Science Center, or QSC, hosted its second in-person all-hands meeting in early May. More than 150 scientists, engineers and support staff traveled from 17 institutions to review the QSC’s progress, examine existing priorities and brainstorm new short- and long-term research endeavors.
Purdue University hosted more than 100 attendees at the fourth annual Quantum Science Center summer school. Students and early-career members of the QSC —headquartered at ORNL — participated in lectures, hands-on workshops, poster sessions and panel discussions alongside colleagues from other DOE National Quantum Information Science Research Centers.
Researchers at ORNL and the University of Maine have designed and 3D-printed a single-piece, recyclable natural-material floor panel tested to be strong enough to replace construction materials like steel.
Researchers set a new benchmark for future experiments making materials in space rather than for space. They discovered that many kinds of glass have similar atomic structure and arrangements and can successfully be made in space. Scientists from nine institutions in government, academia and industry participated in this 5-year study.
A team of researchers including a member of the Quantum Science Center at ORNL has published a review paper on the state of the field of Majorana research. The paper primarily describes four major platforms that are capable of hosting these particles, as well as the progress made over the past decade in this area.
When scientists pushed the world’s fastest supercomputer to its limits, they found those limits stretched beyond even their biggest expectations. In the latest milestone, a team of engineers and scientists used Frontier to simulate a system of nearly half a trillion atoms — the largest system ever modeled and more than 400 times the size of the closest competition.
ORNL scientists are working on a project to engineer and develop a cryogenic ion trap apparatus to simulate quantum spin liquids, a key research area in materials science and neutron scattering studies.
Howard Wilson explores how to accelerate the delivery of fusion energy as Fusion Pilot Plant R&D lead at ORNL. Wilson envisions a fusion hub with ORNL at the center, bringing together the lab's unique expertise and capabilities with domestic and international partnerships to realize the potential of fusion energy.