Latest Articles for Material Science

Study reveals quasiparticle behavior in metals at elevated temperatures, challenging past beliefs.

Research explores electron-phonon interactions in two-dimensional materials under photoexcitation.

Exploring the impact of atomic defects in TMDs and their applications.

This paper studies Ising superconductors and their behavior under magnetic fields.

Learn how domain adaptation improves predictions in material science.

Researchers create a new nickelate with distinct electrical characteristics through oxygen manipulation.

This article discusses the role of coordination sequences in material properties.

Scientists investigate spin currents in tungsten and permalloy materials for faster devices.

Skyrmions could transform memory storage and data processing with their unique magnetic properties.

A method to assess data fit using Monte Carlo simulations.

A method to study heat and stress interactions in thermoplastic periodic materials.

Study reveals unique electrical behavior in bilayer materials under varying conditions.

Examining how cuprate superconductors transition from pseudogap to superconducting states.

A look into quantum synchronization and its significance in technology.

Exploring new methods for accurate fracture modeling in materials.

Researchers enhance the study of molecular ion shapes using Coulomb crystals.

Learn how Korn's inequality impacts material science and engineering design.

A new algorithm improves simulation of Hamiltonian dynamics in quantum systems.

Study reveals complex interactions of charged particles in plasmas.

A deep dive into the density of states for two-dimensional Chern insulators.

New methods enhance denture strength and comfort using advanced techniques.

Research enhances light-matter interactions for new technologies.

Investigating how triplet spheres pack in confined spaces using computer simulations.

New materials enhance control over light in optical technologies.

Exploring the structure and defects in nematic materials for practical applications.

Explore gapped interfaces in fracton models and their significance in material science.

A new method enhances material model calibration using integrated techniques.

Research on LK-99 aims to confirm its superconductive properties at room temperature.

This material shows promise for advanced electronics through unique properties.

Research on LK-99 reveals insights into room-temperature superconductivity.

A look into how glasses and gels respond to stress over time.

Yttrium oxide plays a key role in astrophysics and material science studies.

This study examines how sound waves affect droplet suspension and sorting.

Engineers improve truss designs through advanced optimization techniques to enhance efficiency and strength.

New techniques improve predictions for complex fluid behavior in various industries.

Research reveals complexities in superconducting properties of a newly discovered material.

Examining how spins and electronic structures influence magnetism in materials.

New methods in quantum chemistry leverage algebraic geometry for solving complex equations.

Study reveals TmAg's behavior under low temperatures and strain effects.

A deep dive into how surface roughness affects liquid behavior.