Latest Articles for Magnetism

FAJJs merge superconductivity and magnetism, opening new technological pathways.

Explore how chiral magnets generate unique electric fields from magnetic interactions.

Exploring fluid behavior in astrophysical disks and instabilities.

Research reveals critical electronic structures in GdRuSi for future technology.

Exploring the unique magnetic properties of the Kitaev-Gamma ladder model.

Research explores hole interactions in Hubbard models, impacting superconductivity and magnetic properties.

Study reveals flow dynamics and magnetic interactions in solar active regions.

YSR tips improve the study of magnetic spins at atomic levels.

YbCl's layered structure leads to intriguing magnetic behavior at low temperatures.

Study of Ni InSbO's magnetic structures under varying magnetic field strengths.

Investigating electron behavior on negatively curved surfaces in magnetic fields.

Explore how magnetism drives motion in materials through the Einstein–de Haas effect.

Investigating how electric currents can manipulate Bloch points in magnetic materials.

Altermagnetism showcases unique properties in certain materials, influencing future technology.

A new method effectively clarifies solar magnetic field measurements.

Study reveals key properties of ICMEs and their impact on space weather.

New insights into 4Hb-TaS reveal unique interactions between magnetism and superconductivity.

This study examines how film thickness affects the structure and magnetism of iron.

Exploring the unique properties of chiral magnets and their applications in technology.

A closer look at the unique properties of MOF perovskites and their applications.

Research reveals how physical strains affect superconductivity in CaKFe As material.

Exploring how spin arrangements influence material properties.

Innovative coupling techniques enhance communication in quantum systems using magnons and mechanical oscillators.

Research on EuZnP reveals unique magnetic and electrical behaviors.

Quasicrystals exhibit unique magnetic behaviors challenging our traditional understanding of magnetism.

A look at how rocks interact with magnetic fields over time.

Learn how superconductors respond to magnetic fields and their significance.

A look into the structural and magnetic behaviors of (RbCl)CuPO4 under temperature changes.

A new algorithm enhances understanding of spin arrangements in materials.

A look into spin polarization and its applications in alkali vapor research.

Explore how spin point groups influence material properties and applications.

Examining rapid changes in magnetic properties of Heisenberg spin ladders.

This study examines spin waves in transition-metal dichalcogenide bilayers for future electronics.

Examining the chiral anomaly and its role in generating magnetic fields in high-energy environments.

Discover unique properties of lattices influenced by imaginary magnetic fields.

Exploring energy behavior in open quantum systems through magnetization and electron count.

Frustrated magnets exhibit diverse behaviors due to intricate spin arrangements.

Researchers investigate spin torque oscillators for energy-efficient computing technologies.

Study reveals oscillatory behavior in antiferromagnet/superconductor structures.

Exploring the connection between superconductivity and altermagnets reveals unique electronic states.