Remembering Really Fast
Colossal magnetoresistance at terahertz frequencies in thin composites boosts novel memory devices operated at extremely high speed.
Colossal magnetoresistance at terahertz frequencies in thin composites boosts novel memory devices operated at extremely high speed.
Engineers develop wires that penetrate neurons and measure their activity.
Engineered stacked perovskite layers harvest light or create light via layer edges.
A revolutionary material harbors magnetism and massless electrons that travel near the speed of light—for future ultrasensitive, high-efficiency electronics and sensors.
Focused x-ray beam revealed structural changes from laser heating, pinning down elusive melting point.
Neutron-scattering studies reveal surprising formation of ammonia after acetonitrile is turned into graphitic polymer, opening doors for catalyst-free industrial reactions at room temperature.
Researchers invent a low-tech, solution-based route to high-performance carbon nanotube thin films.
Researchers invent a new single-step approach to constructing electromagnetic metamaterials uses tiny self-assembled pillars in composite films.
Simulations indicate that ultrafast laser pulses leave vortex-shaped patterns in their wake.
Studies of the neutrinos emitted in the radioactive decay of nuclei held in an ion trap allow sensitive searches for new interactions.
Cutting-edge experiment with a beam of radioactive barium ions provides direct evidence of nuclear pear-shape deformation.
Novel experiments measure unusual thermonuclear fusion of hydrogen with a rare oxygen isotope.