For the first time, a research team from the University of Cologne has observed the electron capture decay of technetium-98,...
Ballistic electrons are among the most fascinating phenomena in modern quantum materials. Unlike ordinary electrons, they do not scatter off...
A collaborative team of physicists and microbiologists from UNIST and Stanford University has, for the first time, uncovered the fundamental...
Controlled atomic defects in nickelate films narrow down explanations of superconductivity emergence
An international team led by researchers at MPI-CPfS used irradiation with extremely high-energy electrons to controllably introduce atomic defects in...
According to a recent study published in APL Photonics, a research team led by Prof. Liang Xu from the Hefei...
A team from the Faculty of Physics and the Center for Quantum Optical Technologies at the University of Warsaw has...
Shock waves should not be shocking—engineers across scientific fields need to be able to precisely predict how the instant and...
Detecting dark matter—the mysterious substance that holds galaxies together—is one of the greatest unsolved problems in physics. Although it cannot...
A new twist on a classic material could advance quantum computing and make modern data centers more energy efficient, according...
Researchers from EeroQ, the quantum computing company pioneering electron-on-helium technology, have published a paper, titled “Sensing and Control of Single...
Magnetic materials have been known since ancient times and play an important role in modern society, where the net magnetic...
Imagine zooming into matter at the quantum scale, where tiny particles can interact in more than a trillion configurations at...
