Latest Articles for Materials Science

Examining the disconnect between topological properties and electrical behavior in materials.

Antiferromagnets and Bloch lines could revolutionize spintronic technologies.

This article presents an innovative mass lumping method for enhanced accuracy in structural dynamics.

Investigating the distinct properties of Ising superconductors in varying conditions.

Research reveals unique properties of iron-based superconductors like FeSe1-xTex.

A study on optimizing lithium-ion battery performance through advanced modeling methods.

Exploring the relationship between quarks, gluons, and protons through high-energy physics.

New parallel methods improve simulation efficiency and accuracy for phase changes.

Discover the unique properties and challenges of iron-based superconductors.

A new method enhances GW calculations using machine learning for better efficiency.

Research on dice lattices reveals unique electronic and magnetic properties.

Researchers investigate dipolar supersolids, merging solid and superfluid properties for new insights.

Ferroelectric hafnia shows promise for innovative tech applications.

A look into the unique properties and behaviors of two-dimensional electron systems.

Examining how liquids interact with grooved surfaces under various conditions.

Study reveals how water molecules interact with light in an optical cavity.

Research reveals chalcogenides' potential in renewable energy applications.

Researching spin dynamics reveals insights into magnetic and electric properties of materials.

Researchers investigate long-range interactions in quantum systems, focusing on magnetism and phase transitions.

A look into a new magnetic behavior that blends ferromagnetic and antiferromagnetic features.

Research unveils critical insights into charge density waves and electronic properties of VTe.

CrSiTe stands out for its low thermal conductivity and magnetic properties.

Research on improving PZT integration in silicon photonic devices for efficient light modulation.

This article examines how coffee's structure influences its flavor extraction during brewing.

Exploring the unique magnetic properties of BaCuTe2O6 and its quantum behavior.

Scientists improve imaging through opaque materials using advanced techniques and two-photon fluorescence.

Researchers find ways to control the spin of polariton condensates using lasers.

Microwave impedance microscopy reveals material properties at low temperatures and quantum levels.

Researchers investigate the unique behaviors of equal-twist trilayer graphene.

Insights into how light reflects off surfaces submerged in liquids.

Exploring the unique properties of excitons in transition metal dichalcogenides.

CdGeAs shows promise for future electronic and thermoelectric applications.

A new model uses data and physics to predict how particles behave in fluids.

A look into how particle cages impact the glass transition.

New circuit designs improve accuracy in quantum energy calculations.

Investigating how mechanical strain influences properties of high-temperature superconductors.

Research shows doping Fe GeTe with nickel significantly increases its Curie temperature.

A detailed look at the critical interface of GaP and Si materials.

MoSiN and WSiN show promise in managing heat in transistors compared to silicon.

Researchers study weak-links in superconductors to improve electronic device performance.