This schematic illustrates how regulating electron spin states through six key strategies—including defect engineering, valence modulation, and magnetic field application—can optimize catalytic ...

While superconductors are known to induce weak superconducting behavior in nearby materials, the iron's induced behavior was ...

Researchers have found a way to control the interaction of light and quantum 'spin' in organic semiconductors, that works even at room temperature. Researchers have found a way to control the ...

An international research team has succeeded for the first time in measuring the electron spin in matter - i.e., the curvature of space in which electrons live and move - within "kagome materials", a ...

Controlling the quantum state of electrons is crucial for quantum information processing, including new types of superpowerful computers and unbreakable cryptography. Scientists have known for a while ...

The key feature of spintronic devices is their ability to use spin currents to transfer momentum, enabling low-energy, ...

A chip-scale interface entangles light and electronic states without cryogenic cooling, bringing quantum networking hardware ...

New ultrafast method for controlling magnetic materials might enable next-generation information processing technologies. This illustration shows that a pair of intense THz laser pulses drives spin ...

Scientists at Delft University of Technology have managed to watch a single atomic nucleus flip its magnetic state in real time. Using a scanning tunneling microscope, they indirectly read the nucleus ...

BUFFALO, N.Y. — Scientists have used electrical pulses to manipulate magnetic information into a polarized light signal, a discovery that could revolutionize long-distance optical telecommunications, ...