Purdue quantum researchers twist double bilayers of an antiferromagnet to demonstrate tunable moiré magnetism. Twistronics isn’t…
Browsing: Spintronics
Spintronics, short for “spin electronics,” is a cutting-edge field of research that explores how the intrinsic spin of electrons, along with their charge, can be harnessed for advanced technologies. Unlike conventional electronics, which rely solely on electron charge to process information, spintronics leverages quantum spin properties to create faster, more energy-efficient devices. Applications range from ultra-dense data storage and non-volatile memory (like MRAM) to quantum computing and next-generation sensors. As scientists deepen their understanding of spin dynamics and materials like topological insulators and magnetic semiconductors, spintronics holds immense promise for revolutionizing computing and electronics.
Research suggests a novel approach to enhance spintronics, paving the way for advancements in future…
A research team has revealed that ultrashort laser pulses can magnetize iron alloys, a discovery…
Hopfions, magnetic spin structures predicted decades ago, have become a hot and challenging research topic…
Researchers highlight the potential of cobalt-tin-sulfur in spintronic devices, revealing its capability to reduce energy…
A novel metasurface design enables binary photon spin control, advancing quantum photonics and data storage…
Expanding Topological Phases to Magnetic Materials Topological phases are not limited to electronic systems and…
New research reveals that spinning quasiparticles, or magnons, light up when paired with a light-emitting…
INRS researchers and international partners have succeeded in looking at spin inside rare earth materials,…
Researchers from RIKEN and QuTech—a collaboration between TU Delft and TNO— have achieved a key…
New technique could make quantum networking possible. Engineers at Caltech have developed an approach for…
Skyrmions, tiny magnetic anomalies that arise in two-dimensional materials, can be used to generate true…
Leveraging electron spin adds a new dimension to data encoding. Remember flip-phones? Our smartphones may…
Technique Tunes Into Graphene Nanoribbons’ Electronic Potential Ever since graphene – a thin carbon sheet…
KPZ dynamics, once seen only in classical systems, are now confirmed in quantum spin chains…
A new method designs nanomaterials with less than 10-nanometer precision. It could pave the way…
A 2D hybrid metal halide device enables efficient, directional THz radiation, revolutionizing spintronic technology. Researchers…
Topological feature could prove useful for encoding information in electron spins. Rice physicists have confirmed…