A team of researchers has discovered a new way to control the magnetic behavior of quantum materials using applied voltages....
The next generation of atomic clocks “ticks” with the frequency of a laser. This is about 100,000 times faster than...
So-called “infinite-layer” nickelate materials, characterized by their unique crystal and electronic structures, exhibit significant potential as high-temperature superconductors. Studying these...
Left and right circularly polarized light, where the electromagnetic waves spiral in a clockwise and counterclockwise manner as they travel,...
A dry material makes a great fire starter, and a soft material lends itself to a sweater. Batteries require materials...
For the first time ever, scientists have used a technique called “quantum squeezing” to improve the gas sensing performance of...
Our data-driven world demands more—more capacity, more efficiency, more computing power. To meet society’s insatiable need for electronic speed, physicists...
Researchers have pioneered the use of parallel computing on graphics cards to simulate acoustic turbulence. This type of simulation, which...
A research team has achieved multilevel spin-based modulation of magnetoresistance in high-performance organic spin valve (OSV) devices. The study was...
A team of researchers from GSI/FAIR, Johannes Gutenberg University Mainz, and the Helmholtz Institute Mainz has succeeded in exploring the...
A new analysis of data from the PHENIX experiment at the Relativistic Heavy Ion Collider (RHIC) reveals fresh evidence that...
By combining the National Ignition Facility (NIF) laser and ultra-light metal foams, researchers at Lawrence Livermore National Laboratory (LLNL) have...
