Simulating Meteorite Impacts in the Lab
A U.S.-German research team has simulated meteorite impacts in the lab and followed the resulting structural changes in two feldspar minerals with x-rays as they happened.
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Correlated Nucleons May Solve 35-Year-Old Mystery
Guided by data from new high-precision measurements, physicists develop a universal function that suggests that proton-neutron pairs in the nucleus may be responsible for the EMC Effect.
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Confirming a Little-understood Source of the Process Behind Northern Lights and the Formation of Stars
Researchers at the U.S. Department of Energy’s (DOE) Princeton Plasma Physics Laboratory (PPPL) have now produced the first fully kinetic model of the behavior of plasma particles and found that fast reconnection can indeed occur in partially ionized systems.
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Argonne Expertise Contributes to the Foundation for Future Electron-ion Collider
The conventional picture of an atom’s interior seems pretty straightforward, with electrons orbiting a closely-packed nucleus of protons and neutrons. Within the individual protons and neutrons that make up the nucleus, however, there is a more complex story — one that is driving scientists from around the world to plan one of the most ambitious collaborative experiments in nuclear physics.
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Event-based Data Collection Enriches Neutron Scattering Research and New Product Development
Scientists using neutron scattering methods to look at the behavior of materials under stress or during phase changes and chemical reactions can view processes from new angles using event-based data. Understanding phase changes and chemical reactions is vital to the design of next-gen consumer products such as better batteries, more powerful electronic devices, cars with improved fuel efficiency, and safer, more effective medical applications.
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Funding: Department of Energy to Provide $4 Million for Research on Matter in Extreme Conditions
Research Will Make Use of University and National Laboratory Laser Facilities
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Ralph Hix: Modeling the Origin Story of the Elements
Hix and other ORNL astrophysicists construct models using state-of-the-art supercomputers to simulate the collapse and explosion of massive stars more than ten times the mass of our sun and understand how supernovae create new chemical elements through a process known as nucleosynthesis.
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Sound Waves Let Quantum Systems 'Talk' to One Another
Researchers at the U.S. Department of Energy’s (DOE) Argonne National Laboratory and the University of Chicago have invented an innovative way for different types of quantum technology to “talk” to each other using sound.
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Quantum Information Science Effort Expands at Brookhaven Lab
The Computational Science Initiative is building its staff, capabilities, and programs in this emerging research area expected to revolutionize science and other fields.
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New Molecular Blueprint Advances Our Understanding of Photosynthesis
Researchers at the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) have used one of the most advanced microscopes in the world to reveal the structure of a large protein complex crucial to photosynthesis, the process by which plants convert sunlight into cellular energy.
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Illuminating a Key Industrial Process
Results of research carried out at the U.S. Department of Energy’s (DOE’s) Advanced Photon Source (APS) may pave the way to improvements in industrial processes based on solvent extraction, which is used in the mining and refinement of technologically important rare earths.
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Laser Pulses Light the Way to Tuning Topological Materials for Spintronics and Quantum Computing
Scientists at the U.S. Department of Energy’s Ames Laboratory have discovered a means of controlling the surface conductivity of a three-dimensional (3D) topological insulator, a type of material that has potential applications in spintronic devices and quantum computing.
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