Physics - Materials Science

Quasicrystals exhibit unique magnetic behaviors challenging our traditional understanding of magnetism.

Researchers use light to influence phonon behavior in graphene, enhancing its properties.

New findings reveal enhanced charge-to-spin conversion using PtSe and NiFe materials.

A look into the structural and magnetic behaviors of (RbCl)CuPO4 under temperature changes.

A new algorithm enhances understanding of spin arrangements in materials.

SEAQT framework enhances understanding of electron and phonon transport in materials.

Explore how spin point groups influence material properties and applications.

Machine learning improves material prediction accuracy and efficiency.

This article examines how disorder affects material strength and failure mechanisms.

New methods improve accuracy of radiation damage measurement in materials.

Study reveals how light affects charge carriers in InSe for tech applications.

Learn how nanoscale engineering enhances thin film properties for advanced applications.

Study reveals how ion bombardment alters magnetic behavior in manganese arsenide.

Study reveals complex behaviors in transition metal dichalcogenides and charge density waves.

This method improves data collection by focusing on significant changes in experiments.

Innovative materials control wave scattering for advanced applications in electronics and photonics.

Weyl semimetals reveal unique electric behaviors under light, promising advances in technology.

Ferrimagnets show rapid magnetization changes under laser pulses, boosting data storage tech.

This research links Weyl and chiral phonons, revealing new properties in tellurium crystals.

Research sheds light on the non-Hermitian skin effect in resonator systems.

Researching wave behavior in silicon to improve electronic devices.

Explore how emergent inductors may shape future technologies.

Recent methods improve calculations of cohesive energy in molecular crystals.

Study reveals the impact of pressure on iron microstructure during heating processes.

Research shows how substrate choice and MBL affect polymer conductivity.

Electron ptychography enables detailed imaging of atomic structures and interactions.

This article examines how surroundings affect gold-palladium nanoparticles' formation and properties.

Research reveals unique superconducting behaviors in aluminum and gold structures.

A new model simplifies predicting elasticity tensors for various materials.

Study reveals stability and electronic features of CPA monolayers with potential applications.

Exploring how geometry and material behavior affect shell performance.

Exploring the role of Raman spectroscopy in studying Platinum Diselenide layers.

Research on CoSn thin films reveals insights into flat band physics.

Research unveils the properties of selenospinel Cu Fe Sn Se for thermoelectric applications.

Researchers study unexpected behaviors in nano-resonators and their effects on performance.

Examining how hydrogen impacts silicon performance in devices, especially solar cells.

This study examines the electronic properties of TaAs and TaP using NQR.

DiffCSP improves the efficiency of predicting crystal structures using generative models.

This study examines how uneven particle arrangements affect fluid dynamics.

Research on graphite nanoribbons reveals potential for innovative light polarization applications.