What Is Ferromagnetism?
Ferromagnetism Ferromagnetism is a property of a material in which particles called magnetic moments organize parallel to one another when there is a magnetic field. These particl...
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Ferromagnetism Ferromagnetism is a property of a material in which particles called magnetic moments organize parallel to one another when there is a magnetic field. These particl...
Scientists developed a manganese-based molecular data storage material that works at about -132 C, warmer than earlier iron-based versions.
Researchers created stable bulk ferromagnetic quasicrystals without rapid quenching, opening a clearer route to study quasiperiodic magnetism.
Nanoscale Horiz., 2026, Accepted ManuscriptDOI: 10.1039/D5NH00644A, Review ArticleHao Wu, Li Yang, Gaojie Zhang, Wen Jin, Jie Yu, Bichen Xiao, Wenfeng Zhang, Haixin ChangThe anomal...
Researchers demonstrate a giant insulator-to-metal transition and room-temperature superparamagnetism by controlling defect reconstruction and nickel nanoparticle formation in per...
Physicists have experimentally demonstrated an exotic form of magnetism in a metal that could be useful for realizing future data-storage devices.
Deliberately breaking crystal symmetry widens topological bandgaps in 2D magnets made from light elements, predicting quantum anomalous Hall insulators robust enough to survive far...
Insider Brief PRESS RELEASE — For nearly a century, there were two known kinds of magnets. Ferromagnets are the classic magnets that attract metal and keep pictures stuck to the re...
Researchers used laser pulses to write and read antiferromagnetic data, opening a path to faster, lower-energy memory linked to optical networks.
Ferroaxial atomic rotations enable chirality-like Raman optical activity in an achiral, nonmagnetic crystal, expanding tools for material discovery.
"Proximity effect" appears in models of semiconductor/altermagnet bilayer structures The post Altermagnets can turn neighbouring materials altermagnetic, too appeared first on Phys...
Light-switchable molecules could tune spin-wave filters in 2D magnets, offering a chemical route to reprogrammable nanoscale magnetic circuits.
Radical molecules on superconductors self-assemble into chains with bistable charge and spin states, offering a route to controllable quantum materials.
Short current pulses can switch magnetization in thin films via spin orbit torque, enabling controllable skyrmion motion for future data technologies.
Twisting magnetic spirals into one handedness across 99% of a material could enable ultra-dense, energy-efficient memory devices.
Researchers from the University of Ottawa and MIT have published a comprehensive roadmap in Newton detailing the potential of “magnetic topological materials.” These materials repr...
A new review highlights exciting progress in atomically thin quantum materials where light and magnetism work together in ways never before possible. In these materials, light-gene...
New soft X-ray momentum microscopy directly images magnons in 2D reciprocal space, offering a sensitive platform to study spin waves for future computing.
Author(s): Sophia ChenA technique combining spectroscopy and computational simulations allows the geometry and spin magnetic moment of iron nanoclusters to be determined more preci...
Author(s): Marric StephensResearchers have shown that defects in lattices of magnetic quasiparticles called skyrmions can be created, stabilized, and manipulated.[Physics 19, s85]...
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