Latest Articles for Spintronics

ABCA-stacked tetralayer graphene shows potential for energy-efficient spin currents without loss.

Research highlights clock transitions in silica glasses, paving the way for quantum applications.

Examining the interplay of interactions in antiferromagnetic materials.

Control magnons with electric fields in multiferroic materials like NiI.

Investigating the Blatter radical's role in electronic devices and its magnetic properties.

This study investigates how heat moves in Mott insulators, focusing on spins and phonons.

MgMnSn reveals fascinating magnetic and electronic properties for future technologies.

Study of how electric currents affect electron spins in various materials.

Research reveals how terahertz waves influence magnetization in materials.

Research reveals unique properties of zigzag-edged CrN nanoribbons for future technologies.

A look at the contributions to spin and orbital effects in materials.

Examining spin relaxation and diffusion in monolayer 1T'-WTe for advanced electronics.

Study explores spin current dynamics in metal-altermagnet interfaces.

Learn about skyrmions and their potential in future technologies.

Exploring the impact of magnetic impurities on superconducting properties through YSR states.

A study of light interactions with bismuth surfaces through circular dichroism.

Exploring the synergy of normal metals and magnetic insulators in spintronics.

Enhancing magnetic sensing with NV centers for improved sensitivity and performance.

Learn about unique magnetic structures and their potential in electronics.

Research on magnetic inertia offers insights for faster magnetic devices.

Exploring the potential and applications of spin-polarized antiferromagnetic metals.

An overview of tunneling magnetoresistance in magnetic junctions and its technological implications.

New nano-antennas utilize unique materials for effective and compact radio wave transmission.

Study reveals how randomness affects magnetoresistance in graphene under magnetic fields.

Merons influence skyrmion behavior and phase transitions in magnetic materials.

Research reveals promising electronic and spin properties in WCOX Janus MXenes.

This study reveals how hydrogen affects the magnetic properties of cobalt nanomagnets.

Researchers investigate how electric fields can manipulate magnetization in materials using galfenol.

VCl monolayers reveal unique magnetic and orbital properties important for advanced applications.

Surface acoustic waves can effectively control magnetization dynamics in small magnetic disks.

Exploring how ferrimagnetic Weyl semimetals control electron spins for future technology.

Altermagnets offer insights into spintronics through unique conductivity and N eel vector properties.

Research reveals methods to manipulate solitons in magnetic materials using edge modes.

Exploring the effects of magnetic damping on spin waves and their applications.

Exploring the potential of antiferromagnets in next-gen memory devices.

Discover the unique properties and potential applications of altermagnets.

Study reveals insights into charge and spin dynamics in unique electronic materials.

An overview of Na Co TeO's magnetic properties and their significance.

Altermagnetism shows promise for future advancements in electronic devices and storage.

Exploring the spin Nernst effect in advanced materials for future technologies.