Latest Articles for Spintronics

AlSi compounds show unique properties due to Weyl fermions, sparking interest in advanced technologies.

A look into how lasers change magnetic materials rapidly.

A spintronic device matrix enhances control of Majorana zero modes for quantum computing.

Study reveals how atom positions in FeCo alloys affect magnetic energy dissipation.

Research reveals new findings on spin currents in ferromagnetic films.

This article reviews the properties of the Cr2O3-Pt interface for future technologies.

This article explores antiferromagnetic materials and their potential in future electronics.

Research reveals unique interactions in magnetism that could change technology.

New insights into magnetic topological insulators may reshape electronics and spintronics.

Examining the role of heat in antiferromagnetic data storage technology.

Study reveals effects of pressure on charge dynamics in MnBiTe and Mn(BiSb)Te.

Research reveals new properties of skyrmion lattices in magnetic materials.

CuMnSb's unique magnetic properties offer new possibilities in technology.

Altermagnets show promise for spintronics through unique magnon behaviors and temperature effects.

Examining the magnetic ground state of monolayer CeI provides insights for future applications.

This study explores spin behavior in Kagome lattices affected by magnetic fields.

Research on magnetic solitons enhances technology through improved measurement techniques.

Research reveals how external factors influence skyrmion stability and formation.

Research on 2DES reveals unique properties with applications in electronics and spintronics.

Exploring the complexities of frustration in spin chains and its impacts.

A new oscillator design improves performance and stability for future communication technologies.

Research on triangulenes opens pathways for new magnetic materials and technology.

Examining how localized electrons in MoSe interact with magnetic fields.

Researchers uncover methods to enhance magnetization stability in atomic chains.

Exploring the potential of antiferromagnetic topological insulators in advanced electronics.

Exploring the potential of antiferromagnetic materials in advanced electronics.

Discover how topological insulators are transforming electronic devices with spintronics.

Research unveils the formation of magnetic skyrmions in centrosymmetric materials.

Insights into magnetic behaviors and electronic interactions in EuSn(As,P).

Investigating altermagnetism in heavy fermion systems reveals potential for advanced spintronic applications.

Exploring the role of Rashba splitting in advanced spintronic applications and materials.

A look into skyrmions and their impact on the topological Hall effect.

Research into the effects of holes on magnetic ions in quantum wells.

Exploring how spin-orbit coupling influences electron movement and material properties.

Examining magnetic behaviors in square lattices and their significance in technology.

Research reveals unique properties of quantum skyrmion liquids, advancing our grasp of magnetism.

A look into the fascinating characteristics of Ising superconductors, specifically NbSe.

Research reveals how nickel substitution affects the magnetic properties of Sr(Co Ni)P.

Research reveals complex interactions between magnetism and electricity in frustrated magnets.

Study reveals insights into CrSBr's spin textures for advanced electronics.