By applying the Kerr effect, Kerr microscopy facilitates the analysis of magnetic domains in steel alloys, supporting ...

A small, round piece of asteroid Ryugu (sample #91), called “S-lunar,” contains tiny particles (less than 1 mm) that will allow planetary scientists to study the magnetic signature of the early solar ...

Scientists at the University of Tokyo have captured something never seen before: a frame-by-frame view of how electron spins ...

A team led by Ryo Shimano at the University of Tokyo has directly observed how electron spins flip inside an antiferromagnet, a material in which ...

Samples from Ryugu, a small, near-Earth asteroid, preserve natural remanent magnetization (NRM) from the early history of the solar system. However, despite multiple studies, there is currently no ...

New measurement system captures complete magnetic hysteresis loops at megahertz frequencies, closing a key gap in ...

High-frequency magnetic characteristics are essential for improving the efficiency, miniaturization, and operating frequency ...

Scientists are refining a promising climate-smart material that could help clean polluted soils, protect water resources, and support more sustainable ...

Recent technological advances have opened new possibilities for the development of advanced medical devices, including tiny robots that can safely move inside the human body. Some of these systems ...

Genetically encoded nanoplatforms–bacterial nanocompartments (encapsulins) have demonstrated a remarkable capacity for innovation in the fields of biomedicine and biotechnology. These platforms have ...

ABSTRACT: Magnetic launchers provide safer, faster, and lower-friction alternatives to traditional chemical-fuel systems by using innovative principles such as superconducting magnetic levitation, ...

Research from the University of Minnesota Twin Cities gives new insight into a material that could make computer memory faster and more energy-efficient. The study was recently published in Advanced ...