Latest Articles for Materials Science

Investigating the stability and decay of edge zero modes in the transverse field Ising model.

Applying magnetic fields reveals new behaviors in unique materials known as Dirac fermions.

Study reveals how topological phases respond to disorder and dephasing.

A look into Frank loops and their impact on materials in radiation environments.

Discover how light bullets enhance communication efficiency in optical fibers.

A novel approach to study hydrogen isotopes in tungsten enhances fusion reactor technology.

Exploring new machine learning potentials for efficient atomic behavior predictions.

Research sheds light on how quickly systems lose energy.

Researchers examine how parity anomalies affect particle behavior in materials.

Research on Mössbauer nuclei enhances light manipulation in waveguides for quantum optics.

Investigating interactions between antiferromagnets and non-magnetic metals for better electronics.

Examining how materials break under stress and what it means for safety and design.

SHG holographic imaging improves speed and clarity in microscopy.

Research into double perovskites reveals complex interactions and unique properties.

Recent advancements in JARVIS enhance materials research capabilities.

New method cools sound waves in optical fibers using laser light.

A promising metal halide could improve energy conversion from waste heat.

A look into topological semimetals and their unique electric properties.

This study explores Holmium's unique magnetic behavior under high pressure and low temperatures.

This study highlights innovative methods in high harmonic generation using structured plasma targets.

Research reveals how spin-1 chiral fermions affect electrical conductivity in materials.

BGaP showcases unique properties for advanced technology applications.

Chemellia simplifies machine learning for atomic-level material studies.

A look into thermal radiative transfer and its challenges in high-energy scenarios.

Exploring the unique properties of cubic Sn intermetallics involving uranium, neptunium, and plutonium.

This article discusses coordination defects in graphene and their effects on growth.

Vortex electron beams have unique properties that enhance various scientific fields.

The Lieb lattice reveals unique light behaviors in plasmonics.

This article explores how waves behave when encountering junctions formed by multiple wires.

Research reveals unique behaviors of chiral edge modes in graphene materials.

Boron nitride materials show promise for direct electricity generation from light.

A novel method enhances accuracy in energy predictions for molecular systems.

Investigating magnetic behavior in confined 2D electron gases under varying conditions.

Research reveals complex behaviors in gold nanoparticle systems under light interaction.

Explore the interaction of light with plasmonic lattices for various applications.

Researchers enhance qubit performance by studying noise and coherence in germanium hole systems.

Exploring the impact of quantum currents on charge transport and symmetry in physical systems.

Dense suspensions impact various industries and everyday life.

Exploring superconductors and their impact on technology through advanced simulation techniques.

Research on unique materials that manipulate electromagnetic waves opens new technology avenues.