Latest Articles for Materials Science

Learn how laser light influences electrical behavior in graphene materials.

Explore how elastic curves evolve while maintaining area and energy efficiency.

Study reveals insights on CAV defects in SiC for quantum technology applications.

MgPdAs shows superconductivity below 5.5 K, highlighting ternary compounds' potential.

Research on artificial gauge fields in ultracold atoms expands understanding of particle interactions.

Researchers enhance light control using innovative topological waveguides for various technologies.

N²AMD framework enhances accuracy and efficiency in studying material dynamics.

Doping Cr-Si alloys with elements enhances their properties for industrial applications.

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

Research on as-deficient MnAs reveals unique structural and magnetic behaviors.

This paper discusses how electrons emit light and change momentum in electromagnetic fields.

Research reveals charge patterns in doped Mott insulators affecting superconductivity.

Exploring nematic polymer networks and their unique mechanical properties.

Discover how photonic crystals manipulate light through atomic doping.

Research reveals how spins and magnetic fields influence skin effects.

Research on PF2 ions aims to enhance phosphorus accuracy in quantum computers.

Study reveals complex behavior in heavy-fermion materials influenced by temperature and element substitution.

Research reveals new methods for creating oxide nanoscrolls with potential applications.

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

Exploring the unique properties of Gd La PtSb films and their potential uses.

New research highlights how rhombus defects enhance the stability of quasicrystals.

Research shows thicker kagome films can also exhibit superconductivity.

Research shows carbide interlayers can enhance heat transfer in electronics.

A new method combines manifold learning with model order reduction for efficiency.

An examination of crumpled sheets and their surprising behaviors in materials science.

New algorithms enhance understanding of surface states in photonic and acoustic systems.

This article explores methods to predict how stressed materials respond to forces.

Research on BaFe(As,P) enhances understanding of superconducting behavior and properties.

Research on multiterminal Josephson junctions reveals unique properties of superconductors and normal metals.

Exploring the unique properties and applications of black phosphorus in electronics.

A look into the innovative altermagnetic material 2D-CRO and its potential uses.

A novel approach to create clean surfaces for cubic perovskite oxides.

New methods for designing hyperuniform materials based on biological cell arrangements.

New method enhances accuracy in placing tiny gold droplets for material studies.

Exploring the behavior and optimization of liquid crystal drops.

Molecular spin systems are crucial for advancements in quantum technologies.

Exploring new waveguide designs to reduce energy loss in phononic systems.

This study examines how liquid nano-threads respond to disturbances and thermal movements.

Exploring how voltage affects soap film bridges and their behavior.

Exploring how particle size affects photoluminescence in materials for energy applications.