A new discovery reveals how a mysterious quantum spin excitation — a solitary spinon —…
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.
Scientists at TU Delft have unlocked a key quantum effect in graphene without using any…
The study identifies a new class of layered antiferromagnets with spin-valley locking, offering efficient spin…
Researchers at EPFL have made a breakthrough by storing and manipulating digital data using charge-free…
New research unveils the first experimental evidence of the anomalous Hall effect arising in a…
Chirality in organic superconductors was found to induce giant spin-current coupling, mimicking strong spin-orbit effects.…
Researchers have identified antiferromagnetism in a real icosahedral quasicrystal, reigniting interest in the quest to…
Scientists discovered a new Hall effect driven by spin currents in noncollinear antiferromagnets, offering a…
A step forward in the development of diamond CMOS integrated circuits. A research team at…
A revolutionary new spintronic device developed in China enables powerful, precise control of terahertz (THz)…
UC Riverside and its partners are exploring antiferromagnetic spintronics, a tech that could unlock lightning-fast,…
A major breakthrough in organic semiconductors has been achieved, potentially transforming display technology and even…
AI is evolving at an incredible pace, but its growing energy demands pose a major…
Electrons have a hidden feature — spin — that could revolutionize technology. Magnets can control…
Quantum researchers have long believed that strong spin interactions in qubits required covalent bonds, making…
Researchers have discovered an innovative way to manipulate electronic properties in a magnetic Weyl semimetal…
Physicists have identified an unprecedented quantum phenomenon that allows precise manipulation of electron spin and…
A new study introduces a low-energy MRAM device using electric fields for data writing, contrasting…