Latest Articles for Materials Science

Research reveals how light alters material properties at the quantum level.

Exploring the unique properties and applications of magnetic skyrmions in technology.

A new method streamlines quantum simulations using fewer resources and qubits.

Research reveals new compounds for stronger, stable magnets using cobalt.

Study reveals how coupling affects localization in quasiperiodic systems.

Exploring the effects of magnetism on electrical and thermal properties.

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

An overview of superconductivity and its unique properties.

Examining complex magnetic behaviors and phase transitions in correlated materials.

Research reveals how static friction varies with multiple contact points.

This article discusses the unique magnetic phases of RMn Sn kagome metals.

Research highlights the effects of layered materials on superconductivity and magnetism.

XMOL optimizes multiple molecular properties simultaneously, enhancing clarity and efficiency.

A study of quasiperiodic plates and their electromagnetic interactions.

Researchers study twisted bilayers to explore unique material behaviors.

Examining how laser light behaves in dense atomic gases reveals surprising outcomes.

Study reveals how activity affects clustering in active Brownian particle systems.

A look into how thin plates behave under various loads.

AgSnSe shows promise in superconductivity and topological characteristics.

Research explores the superconducting diode effect using -RuCl and NbSe materials.

Exploring how additives shape semiconductor crystals for better technology.

Research into classical spin liquids and their behavior through the four-color Kitaev model.

Exploring the unique optical responses of twisted trilayer graphene structures.

Research enhances potential calculation methods for material properties.

Discover the significance of N eel walls in magnetic materials and their applications.

New method improves sampling efficiency using energy functions.

A simplified approach to compute Wannier functions improves material research.

Exploring superconductivity in materials with complex band structures.

Exploring the behavior and interactions of vortices within two-dimensional supersolids.

Exploring the interaction between Josephson junctions and three-dimensional topological insulators.

A new method improves magnetic imaging, enabling better visibility of magnetic properties.

New model enhances analysis of micro-focused BLS experiments.

Exploring the unique properties of twisted bilayer graphene at a 30-degree angle.

Research focuses on elastic structures that respond effectively to rapidly changing forces.

Exploring the fascinating properties of altermagnets and their Hall effects.

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

Researchers study the transition between two fascinating states in rhombohedral graphene multilayers.

Exploring key aspects of the 20-vertex model in statistical physics.

New machine learning techniques improve predictions in polycrystal plasticity.

Exploring valley polarization's impact on electronic devices through 2D materials.