Latest Articles for Material Science

New materials enhance vehicle visibility for better radar detection.

Explore the unique features of spin liquids in non-periodic quasicrystalline structures.

Research on gapped momentum systems reveals potential for advanced technologies.

Boron clustering significantly influences the properties of (B,Ga)N alloys for optoelectronic devices.

Researchers achieve precise control over laser light color through temperature adjustments.

A look into the magnetic properties of barlowite's unique structure.

Active matter challenges traditional concepts of interfaces in physics.

Introducing the Laminated Element Technique for improved material analysis.

Researchers unravel challenges of quench in superconducting radio frequency cavities.

Research reveals complex relationship between superconductivity and charge density waves in materials.

Researchers examine how light interacts with topological materials and affects electronic phases.

Exploring the behavior of magnons in cone vortex states of magnetic rings.

Examining unique properties and applications of altermagnetism in materials.

This article explores the behavior of dense suspensions and their flow characteristics.

Research reveals key insights into charge order and magnetism in FeGe.

Learn key practices to enhance the training of physics-informed neural networks.

Recent research reveals unique behaviors of glassy materials in different dimensions.

An overview of how light interacts with tiny metallic structures.

A look into the processes that affect magnetic materials and their applications.

Study reveals electric quadrupole ordering in CeCoSi at low temperatures.

A look into the Kerr effect's impact on light and materials.

Researchers develop LOWESA to efficiently simulate quantum systems using classical computers.

Researchers find ways to collect energy from heat using diodes and capacitors.

Investigating how yield-stress fluids behave in porous materials under varying pressures.

Understanding vortices and defects in superconducting nano-bridges for advanced applications.

Exploring the key principles and applications of superconductivity in modern technology.

This article discusses the relation between Berry curvature and excitons in material science.

A study on odd viscosity and its effects on fluid behavior.

Exploring the potential of DNA nanostars for innovative gel applications.

This article explores how light influences molecular properties and chemical reactions.

Investigating CoSnS's kagome lattice structure and its implications for technology.

Introducing an innovative approach to study contact between solids using fixed space modeling.

Exploring nonlinear heat conduction through advanced numerical methods.

Explore the effects of shear stress on fluid dynamics and birefringence patterns.

A deep dive into Frenkel excitons and their roles in semiconductor materials.

Researchers confirm unique band splitting in manganese telluride, revealing altermagnetic behavior.

Investigating unique electrical behaviors in Rashba materials with hexagonal warping structures.

A look into vapor-liquid phase separation and its implications.

A look into how particles merge and form larger clusters in various fields.

Researchers uncover unique properties of twisted MoTe and its quantum states.