Researchers turned a paramagnetic material into a magnet by manipulating electrons' spin via atomic motion. Quantum materials hold the key to a future of lightning-speed, energy-efficient information ...

It's been 37 years since scientists first demonstrated the ability to move single atoms, suggesting the possibility of ...

Insulators are materials in which electrons cannot move freely. Past theoretical studies predicted the existence of an ...

Historic first: Researchers observed atomic vibrations reverse rotation during angular momentum transfer in a crystal lattice for the first time. Laser-driven control: Intense terahertz pulses ...

Scientists directly observed tiny lattice deformations in quantum dots caused by electron-hole pairs, key for advancing solar cells and LEDs. (Nanowerk News) When light hits solar cells, so-called ...

To overcome global energy challenges and fight the looming environmental crisis, researchers around the world investigate new materials for converting sunlight into electricity. Some of the most ...

Hiroki Ueda, first author of the paper, working at the new Furka experimental at SwissFEL Here, using soft X-rays, Ueda and colleagues could reveal the motion of the spins during an electromagnon at ...

Chiral phonons excited by the circularly polarized terahertz light pulses generate ultrafast magnetization in cerium fluoride. Fluorine ions (red, fuchsia) are set into motion by circularly polarized ...