Latest Articles for Material Science

Researchers use lasers to create new pathways for electricity in materials like graphene.

Exploring the fascinating behaviors of spin-1 BECs and skyrmions.

Exploring the complex interactions of electrons and phonons in advanced materials.

A look into Majorana modes and their significance in quantum computing.

Enhancing particle detection accuracy through advanced timing materials.

Exploring complex behaviors of spins in diluted magnetic systems under external fields.

A look at nanowires, electron behavior, and future tech potential.

Investigating how friction affects earthquake behavior through stress and flow dynamics.

Exploring the complex interactions of particles in bilayer honeycomb lattice systems.

Learn how GST is shaping the next generation of memory technologies.

Researchers utilize deep learning to predict properties of photonic crystals efficiently.

A look into the Kitaev model and the behavior of particles in complex states.

Exploring the new stable structure of silver fluoride and its properties.

Learn how confocal microscopy reveals details in tiny samples.

Explore the unique properties and behaviors of layered material 4H-TaS2.

Learn how spring and mass models reveal material dynamics under stress.

A look at the intriguing world of superfluid rings and their effects.

Research reveals unique electrical behavior in KTaO under varying conditions.

NeISF++ accurately analyzes how light interacts with metals and non-metals.

Discover how light influences two-dimensional electron systems and their unique behaviors.

Research reveals how graphene and FePS can change with temperature.

A new model predicts material failure accurately using vast data and advanced techniques.

Learn how porosity affects the strength of 3D printed metal parts.

Discover how PINNs improve predictions in electrical circuit analysis.

Scientists use physics-informed neural networks to improve solutions for phase change equations.

Research on controlling heat movement in tiny devices using innovative structures.

A look at phase-field modeling and the importance of numerical stability in simulations.

Researchers study how particles act when interrupted by random resets.

Examining how disorder affects the Kitaev chain and its topological phases.

A new method improves detection of defects in 3D printed metal parts.

A new method for creating realistic materials enhances flexibility for artists and designers.

Discover the unique properties of GdNiSn and its impact on technology.

Exploring how thin films form layers or islands based on various factors.

A simple look at non-local minimal sets and their importance in math and science.

Exploring the unique properties and potential of flat band superconductors.

Marine sponge fibers showcase surprising strength despite their size.

Exploring how phonons affect heat transfer in various materials.

Intruders moving side by side in grains can help each other move faster.

This study reveals the behavior of striped superconductors on ionic lattices.

A study on how humidity affects the deformation of Norway spruce wood.