Filter News
Area of Research
- (-) Computational Biology (1)
- (-) Materials (20)
- (-) Nuclear Science and Technology (11)
- Advanced Manufacturing (1)
- Biology and Environment (32)
- Clean Energy (37)
- Fusion and Fission (14)
- Fusion Energy (1)
- Isotopes (2)
- Materials for Computing (7)
- National Security (3)
- Neutron Science (19)
- Quantum information Science (2)
- Supercomputing (19)
News Type
News Topics
- (-) Advanced Reactors (4)
- (-) Bioenergy (2)
- (-) Biomedical (2)
- (-) Environment (3)
- (-) Exascale Computing (1)
- (-) Fusion (7)
- (-) Nanotechnology (10)
- (-) Neutron Science (10)
- (-) Transportation (2)
- 3-D Printing/Advanced Manufacturing (7)
- Artificial Intelligence (4)
- Big Data (2)
- Biology (2)
- Chemical Sciences (4)
- Climate Change (2)
- Composites (1)
- Computer Science (10)
- Coronavirus (3)
- Cybersecurity (3)
- Energy Storage (4)
- Frontier (1)
- High-Performance Computing (1)
- Isotopes (3)
- ITER (1)
- Machine Learning (3)
- Materials (6)
- Materials Science (16)
- Mathematics (1)
- Microscopy (6)
- Molten Salt (1)
- National Security (1)
- Nuclear Energy (15)
- Physics (7)
- Polymers (1)
- Quantum Computing (1)
- Quantum Science (1)
- Security (1)
- Space Exploration (2)
- Summit (1)
- Sustainable Energy (1)
- Transformational Challenge Reactor (3)
Media Contacts
Scientists at have experimentally demonstrated a novel cryogenic, or low temperature, memory cell circuit design based on coupled arrays of Josephson junctions, a technology that may be faster and more energy efficient than existing memory devices.