Latest Articles for Materials Science

Researchers study lasting oscillations in quantum Ising chain models after rapid changes.

New methods improve light manipulation in nanostructures for better energy efficiency.

A look into the Quantum Hall Effect and its implications in graphene research.

This study reveals how edge states form in a two-leg ladder system.

This study reveals how titanium alters magnetic and electrical properties of pyrochlore iridates.

Study reveals how microswimmers alter dynamics in active nematic systems.

Research on spin waves opens new paths in technology and materials science.

Bayesian neural networks enhance material behavior predictions with uncertainty estimates.

Study reveals how light can change material properties and symmetry.

Study reveals unique magnetic properties of two-dimensional material CrSBr near critical temperature.

Innovative materials that change properties automatically for various applications.

Explore the latest developments in micromagnetics and their impact on technology.

Exploring the principles of superconductivity and real-space pairing in materials.

Research reveals how active segments in polymers increase knot formation probability.

A new approach to forecast changes in complex systems using reservoir computing.

Research focuses on controlling light using cholesteric liquid crystals in microcavities.

Researchers study quantum spin liquids in ruby and maple-leaf lattices for insights into magnetic behavior.

Investigating Majorana zero modes in quantum dot-superconductor systems for future technologies.

Recent findings reveal how stability can exist in disordered systems.

Research reveals new pathways for topological superconductivity without magnetic fields.

Explore how shapes change over time through mean curvature flow and self-shrinkers.

Magnetic skyrmions could transform data storage and processing in electronics.

Exploring unique properties of Majorana bound states in superconducting materials.

Examining how charge carriers reveal properties of quantum spin liquids.

Neutron Dark-Field Imaging offers insights into the structure of nanocellulose foams.

Exploring the effects of antiproton annihilation in different materials.

Exploring the intriguing behaviors of spin glasses through Replica Symmetry Breaking.

Study reveals impact of magnetization on spin-orbit interaction in nanomagnets.

Understanding acoustic axes is crucial for sound wave behavior in crystalline materials.

Twisted 2D materials hold promise for future technology advancements.

Research reveals the magnetic and electronic traits of Cs Co S for future tech.

Study reveals how fabric properties impact parachute performance during landing.

New insights into spin relaxation can enhance quantum computing materials.

Learn how thermal expansion affects material design and applications.

Explore the intricacies of the dip-coating process and its significance in various industries.

Examining abrupt shifts in physical systems and their behaviors.

Friction dynamics in hydrogels impact their performance in various applications.

Using GNNs to predict optical properties of materials improves device design.

New findings on hematite enhance spintronics efficiency through spin-orbit torque.

Research into the effects of holes on magnetic ions in quantum wells.