Latest Articles for Materials Science

Examining how self-heating impacts performance in advanced electronic devices.

Improving numerical methods for gradient flows with a modified Lagrange multiplier approach.

New technique exposes elusive quadrupolar excitations in quantum systems.

GeS shows promise for future electronic and optoelectronic technologies due to its unique properties.

A model to forecast stress and crack formation in polycrystalline materials.

Researchers improve gold's conductivity by embedding silver nanoparticles, revealing new electrical behaviors.

This article examines magnetization and nutation in nanomagnets affected by surface anisotropy.

Neutron imaging improves material study, especially for hydrogen-rich materials.

Exploring the unique behaviors of supercooled water and its phase transitions.

Research on quantum spin liquids and complex magnetic states using the spin-Kitaev-Heisenberg model.

This study explores self-moving features in ferrimagnetic materials under changing magnetic fields.

New techniques enhance our ability to study superlattices and their electronic properties.

Exploring the unique properties and uses of hexagonal materials in technology.

A look at Kondo screening and its effects in molecules with unpaired electrons.

Researchers study radiation patterns in special materials for potential technological advancements.

Study reveals new wave patterns in materials with changing properties.

Chiral-gain materials change light responses, leading to innovative photonic technologies.

Advancements in language models improve data extraction from scientific papers on materials.

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

A look at how materials respond to stress and the methods to analyze them.

Examining chiral materials through topology provides insights into their behavior and properties.

A look into measuring chirality and its impact on crystalline materials.

This study examines how electric fields affect Landau levels in graphene ribbons.

Graphullerene shows potential for groundbreaking applications in electronics and optics.

Exploring the connection between topological defects and biological systems in active nematics.

Exploring how electron dynamics are influenced by lattice vibrations and temperature changes.

This article examines the intriguing features of non-Hermitian systems.

Researchers study how viscosity affects electron flow in advanced electronic materials.

A mathematical approach improves understanding of material properties at the atomic level.

Researchers investigate crystalline symmetry's role in fractional Chern insulators and topological phases.

This article discusses Kondo and Quantum Zeno effects in monitored quantum dots.

This article examines how stacking patterns affect the properties of nitride MXenes.

Exploring interactions in one-dimensional lattice systems and their dynamics.

Research on fluorobenzene reveals insights into controlling fast chemical reactions.

Researchers study twisted multilayer MoTe for its unique electron properties and effects.

A look into superconductors and topological materials in modern physics.

A novel approach for efficient simulation of quasi-2D Coulomb systems is introduced.

Research on superconductors under high pressure reveals promising materials for future technologies.

This article discusses how machine learning aids in designing microstructured materials.

Study reveals new insights into hydrogel behavior under stress.