Physics - Materials Science

A new subroutine streamlines modeling of soft materials, enhancing research and applications.

This study reveals how hydrogels fail and their unique deformation properties.

Research reveals unique temperature-related magnetic changes in CoZnMn materials.

Research explores the potential of altermagnets with higher-order topological insulators.

Recent research reveals new magnon modes in skyrmion lattices, paving the way for advanced technologies.

Researchers enhance PCM performance using computer algorithms for better light management.

This study focuses on developing models for topological insulator materials.

Examining how crystallization impacts Ge-rich GeTe alloys in phase change memories.

Discover the potential of waved-brim flat-top hat bands in advanced electronics.

Study reveals key behaviors of exciton-polaritons for future technology advancements.

Magnesium alloys show promise for custom orthopedic implants through advanced manufacturing techniques.

AlSi compounds show unique properties due to Weyl fermions, sparking interest in advanced technologies.

This article explores the connections between semiclassical and response theories in electric fields.

A look into how lasers change magnetic materials rapidly.

Research enhances knowledge of nonphononic excitations in glasses.

Polarization textures in 2D materials could reshape technology and electronics.

New method speeds up Ising model simulations using advanced computing technology.

A new approach combines machine learning with physics to improve EDX data interpretation.

Study reveals key insights into the Al-3wt%Nd alloy for electronics.

Understanding iron's melting temperature reveals insights about Earth's core and its evolution.

Creating room-temperature chiral magnets opens new possibilities in signal processing and data storage.

Exploring the fascinating characteristics of ScVSn and its potential applications.

A study on how impurities act in various models when excited.

Utilizing Nvidia Tensor cores to enhance speed in electronic structure theory calculations.

Examining the role of charge dynamics in enhancing quantum dot performance.

New methods enhance quality and diversity in scientific data collection.

Examining how small changes impact the behavior of complex materials.

Researchers study plasmonic crystals for advanced sensing and electronic applications.

New approaches enhance understanding of metallic alloy changes during processing.

Research reveals how strain alters TaNiS semiconductor properties.

This article reviews the unique properties of MnSn and MnGe antiferromagnets.

Study reveals how atom positions in FeCo alloys affect magnetic energy dissipation.

Researchers reveal the significance of p-type and n-type interfaces in nickelate superconductors.

Discover how sliding layers of atoms influence electrical properties.

Discover the latest features of XtalOpt for advanced material predictions.

Machine learning speeds up catalyst discovery and enhances reaction efficiency.

Examining energy movement in metal halide perovskites for improved optoelectronic applications.

Discover PANBB, a new method for efficient crystal structure relaxation in materials science.

A new method improves thin film production efficiency in electronics and optics.

This article examines how neutron radiation alters zirconium alloy properties critical for nuclear reactors.