Researchers have demonstrated that electron orbitals, not just spin, can serve as a practical lever for controlling magnetism in solid-state devices. A series of recent experiments and theoretical ...

Researchers at the University of Konstanz have uncovered a new mechanism of sliding friction: resistance to motion that ...

Magnetic nanostructures have long been part of our everyday life, e.g., in the form of fast and compact data storage devices or highly sensitive sensors. A major contribution to the understanding of ...

Google-Tesla MagNet Challenge is an annual competition. It’s designed to accelerate innovation in magnetic modeling using ...

Researchers at Chalmers University of Technology have demonstrated that stacking two quantum materials on top of each other can flip electron spin at room temperature using tiny currents and no ...

All ferromagnetic materials have atomic magnetic moments that are aligned parallel to each other within small regions called domains. Within these domains, the spontaneous magnetization present is ...

Free electron X-ray lasers deliver intense ultrashort pulses of x-rays, which can be used to image nanometer-scale objects in a single shot. When the x-ray wavelength is tuned to an electronic ...

Create your own magnetic slime and discover how ferromagnetic materials interact with magnetic fields. You'll learn about magnetism, viscosity, and chemical reactions while making a fascinating ...

A flexible magnetic soft robot using magnetorheological fluids navigates the gastrointestinal tract, folds to fit narrow ...

Four experiments on the Z machine at 22 million amps provide data on simplified ‘targets’ for pulsed-power inertial fusion concepts ALBUQUERQUE, N.M., February 05, 2026--(BUSINESS WIRE)--Pacific ...