Latest Articles for Material Science

Researchers improve Laue lens design for clearer high-energy ray imaging from space.

A novel method for addressing complex optimization challenges using data-driven strategies.

Study reveals insights on how fluids move through porous materials.

This study examines how large grains behave when pressure is applied.

Study reveals surprising fluorescence in non-aromatic compounds, highlighting structural impacts.

Researchers uncover unique electronic properties of twisted bilayer graphene.

A look into the behavior of excitons in transition-metal dichalcogenides.

Examining the structure and properties of polymer melts for various applications.

Research sheds light on how proteins cluster in biological systems.

Researchers explore complex behaviors of topological phases and their potential in quantum computing.

Examining how defects affect magnetic properties in two-dimensional materials.

Research improves accuracy of lattice thermal conductivity predictions using molecular dynamics and machine learning.

An overview of self-pulsing behavior in DBD applications.

Exploring the role of van Hove singularities in graphene's electronic properties.

New method enhances analysis of soft materials using machine learning techniques.

Research on magnetic materials reveals parallels to cognitive behavior and information processing.

Researchers study excitons in layered materials for advanced quantum technologies.

Study reveals complex interactions between defects and polarons in rutile TiO(110).

This article discusses improvements in self-interaction correction methods within density-functional theory.

Research on graphite intercalation reveals critical insights for battery performance.

Terahertz time-domain spectroscopy offers a new method for measuring resistivity in semiconductors.

Study examines how droplet elasticity affects movement on surfaces influenced by CAH.

A look into how particle interactions shape material properties through defects.

This article examines topological defects, specifically solitons, and their impact on material properties.

This article explores how high-energy photons affect quasiparticle density in superconductors.

New methods automate the discovery of constitutive laws for hyperelastic materials.

Exploring how light interacts with charged Bose-Einstein condensates.

New libraries and algorithms boost performance in electronic structure research.

Study of domain wall movement in ferrimagnetic strips reveals insights for spintronic devices.

Revolutionizing the understanding of quantum systems using machine learning techniques.

A look at InCa4D code for particle movement in capillaries.

KCrTi(PO) exhibits unique magnetic behaviors due to its atomic arrangement.

An overview of composite materials and their impact on engineering applications.

Examining tungsten's unique response to radiation in fusion energy applications.

This study analyzes DSMC and CFD methods for low density gas flows.

This study examines InSb crystal growth on GaAs, highlighting strain effects.

Study reveals alpha particle emissions from deuterium gas and palladium electrodes.

Research reveals crucial details about davemaoite's phase transition in the Earth's lower mantle.

Study reveals how tiny movements in graphene layers affect heat exchange efficiency.

A sensor detects small electric fields at atomic levels, improving material research.