Professor Dallas Trinkle and colleagues have provided the first quantitative explanation for how magnetic fields slow carbon ...
Imagine computer hardware that is blazing fast and stores more data in less space. That's the promise of antiferromagnets, ...
UD researchers develop optical method to detect magnetic behavior of antiferromagnets, paving the way for advanced computing ...
Florida State University scientists have engineered a new crystal that forces atomic magnets to swirl into complex, repeating ...
In 1929, Ernest Orlando Lawrence invented the cyclotron: a compact, efficient particle accelerator that used magnets. Two ...
Researchers have identified an unexpected link between atomic magnetism and carbon mobility in steel. Researchers at the ...
Solid-state physicist Aparajita Singha, a leading expert in ultra‑sensitive magnetometry, is pushing the limits of how we detect magnetic fields at the smallest scales. By exploiting atomic defects in ...
At extreme pressures and temperatures, water becomes superionic — a solid that behaves partly like a liquid and conducts ...
Physicists have uncovered a link between magnetism and a mysterious phase of matter called the pseudogap, which appears in ...
Scientists have uncovered hidden magnetic order inside the pseudogap, bringing us closer to engineering high-temperature superconductors.
Antiferromagnetic (AF) materials are made up of atoms or molecules with atomic spins that align in antiparallel directions of their neighbors. The magnetism of each individual atom or molecule is ...
Diamonds might be the next big thing in quantum computing. Quantum Brilliance now grows ultra-pure diamonds for better ...
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