Latest Articles for Material Science

A deep dive into the unique properties of higher-order topological insulators.

Examining how information changes and spreads in quantum spin glasses using key models.

An overview of unique properties and potential applications of two-dimensional Weyl semimetals.

Research reveals complex electron behaviors in heavy fermion materials with multiple bands.

Study reveals how confinement shapes defect behavior in active nematics.

Research on skyrmions and their instabilities offers insights into future data storage solutions.

Superconducting wires enhance technology through efficient power transmission and advanced magnetic applications.

This method enhances subgroup discovery and offers clearer insights.

New technique improves light measurement in chiral substances and magneto-optic materials.

Research reveals complex behaviors of superfluids under tilted and driven conditions.

Examining the behavior of metallic nanowires on semiconducting materials.

A study on how colloidal dispersions dry in microfluidic environments.

New models enhance insights into energy transfer and material behavior.

Learn methods to identify important variables for better data analysis.

This article explores interactions between light and two-dimensional materials, focusing on exciton-polariton condensates.

Introducing DMMFT for better insights into complex quantum states and frustrated systems.

PrSrMnO shows promise for efficient and eco-friendly cooling applications.

Scientists discover boundary-induced bct iron with unique magnetic properties.

Explore how mathematics helps us understand material changes under stress.

A new method combines computer predictions and human expertise to identify better dielectric materials.

Investigating twinned domains can enhance material performance in technology applications.

Discover how topological quantum devices enhance quantum technology applications.

Researchers improve methods for creating high-quality nickelate films with unique properties.

New techniques improve electron simulations in materials using quantum computing.

This study examines diverse magnetic states in the spin-Heisenberg model on a square lattice.

This article examines how CdAs films react to different magnetic fields.

Exploring the effects of curvature on shapes over time.

This article examines how sound waves diminish in disorganized materials.

Research examines the structure and magnetic behavior of copper-substituted lead oxyapatite.

Research highlights connections between gapless fermionic systems and topological insulators.

Examining the quantum BGK model for gas mixtures and particle interactions.

Analyzing the Jahn-Teller effect reveals key insights for material properties.

Investigating benzene molecular junctions for improved electronic and thermoelectric performance.

A fresh look at how atoms bond in excited diatomic molecules.

A look into nonlinear elasticity and its importance in various applications.

A new model enhances understanding of fluid behavior at moving boundaries.

Research reveals how electric fields affect tiny liquid crystal droplets.

Examining how disordered materials respond to stress and the implications for various applications.

Exploring how the q-TIP4P/F model helps understand water's unique properties.

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