Latest Articles for Materials Science

Research focuses on finding innovative optical materials using machine learning and vast databases.

TbTiBi reveals complex magnetic and electronic properties in kagome metals.

A study on the behavior of caloric capacity in heat transfer systems.

Exploring superfluid weight's role in superconductors with flat energy bands.

Examining the role of heat in antiferromagnetic data storage technology.

Study reveals insights on cesium lead bromide crystallization and its effects on device performance.

New methods improve quantum calculations for complex chemical systems.

Research reveals unique behaviors in FQH states under light influence.

An overview of the issues in transferring qubits within semiconductor quantum dots.

Research delves into Fibonacci quasicrystals and their role in topological superconductivity.

TlSbTe shows promise in thermoelectric applications with low thermal conductivity and favorable electrical properties.

A look into how elastic solids deform and return to shape.

Research unveils unique phonon states in diverse carbon structures.

This article examines how different growth rates affect wrinkling in layered materials.

A look into how collective variables streamline the analysis of complex systems.

Examining how light interacts with disordered materials and its implications.

Studying how synthetic polymers can create forces and change shapes.

Learn how image charges influence electric interactions in metals and dielectrics.

Research sheds light on defects in cesium lead bromide for solar cell efficiency.

Investigating the similarities between DNNs and structural glasses.

Research reveals new properties of magnons and their potential technological uses.

Discover the role and future of nanowire lasers in technology.

CTTBG shows unique electronic properties due to its stacking and twisting.

This article examines how rough surfaces affect phonon behavior in graphene.

Research highlights eco-friendly cooling solutions using magnetocaloric effect.

Explores the significance and applications of the stochastic Allen-Cahn equation in materials science.

Study reveals how magnetic particle interactions lead to synchronized movements.

Exploring the unique properties and applications of WTe semimetal under magnetic fields.

DFXM offers direct measurement of dislocations, potentially improving material performance.

Researchers reveal advanced methods for measuring current phase relations in graphene superconducting junctions.

Chirality affects chemical interactions and biological outcomes in molecules.

Introducing Pareto front-Diverse Batch Optimization for better solutions.

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.