Latest Articles for Spintronics

Research reveals electron interactions on surfaces with strong spin-orbit coupling.

Exploring the role of topological phases in magnon spintronics for advanced technology.

Study reveals stress-induced magnetization in MnTe, a promising altermagnet.

New insights into stacking effects on bilayer CrI's magnetic properties.

Research delves into type-II Dirac magnons and their behaviors in advanced lattice frameworks.

Skyrmions are small magnetic formations with unique properties useful in technology.

Exploring DMI's significance in magnetic materials and its applications in spintronics.

Exploring ferromagnetic rings and their unique spin behavior in technology.

Investigating the unique motion of magnetic skyrmions in material science.

Study explores ferromagnetic properties in cadmium arsenide and gallium manganese arsenide.

An overview of chiral magnons and their role in modern magnetic materials.

DyTe's magnetic and electronic features promise advancements in electronics and spintronics.

Researchers study how superconductors and antiferromagnets interact and their potential applications.

Exploring the behavior of spins in magnetic materials and their applications.

Research reveals how light influences magnetization in two-dimensional electron gases.

Research shows how spins in materials influence light properties under magnetic fields.

Study explores spin currents in vanadium and platinum thin films using the Kerr effect.

New findings reveal potential for innovative electronics through quantum metrics.

New findings confirm the existence of the Orbital Hall Effect in experimental settings.

This research explores the link between quantum superposition and spin glass behavior.

This article discusses nuclear spin polarization and its implications for quantum computing.

Research reveals unique electron behaviors in delta-doped LaSrIrO materials.

Research focuses on magnetic behaviors of cobalt and iridium in double perovskites.

Chiral phonons show strong magnetic responses, promising advancements in material science.

Researchers develop magnonic cavities, promising new applications in information technology.

Exploring unique properties and applications of topological skyrmion phases in modern technology.

Exploring complex behaviors and properties in Kitaev-Heisenberg systems.

Study reveals how Permalloy affects Mn Au magnetic properties.

Research reveals methods to manipulate magnetic properties using moiré patterns.

Exploring how laser light influences magnetization in unique materials.

Research reveals new behavior of cobalt atoms on copper surfaces.

Research on electron spin behavior in nanojunctions reveals potential for advanced electronic devices.

This study reveals how temperature affects spin currents in antiferromagnetic materials.

Exploring the spin-selective conductivity of bilayer WSe2 and its potential in electronics.

Exploring the movement of spin in materials and its impact on technology.

Research on Fe GeTe reveals potential for efficient, non-volatile memory devices.

New magnetism type blends features of antiferromagnets and ferromagnets.

Study reveals strong coupling between light and spin systems using non-Hermitian methods.

An overview of Weyl semimetals and their intriguing electronic characteristics.

Examining magnetic behaviors in doped Mott insulators reveals insights into superconductivity.