Latest Articles for Materials Science

Researchers advance room-temperature control of molecular spins for quantum technologies.

Investigating how twist angle affects spin-orbit coupling in graphene and NbSe materials.

Study of how materials change phases under external magnetic fields.

Study of 2-OS reveals its potential in advanced electronic technologies.

Ferrofluids exhibit unique magnetic behavior influenced by particle size and environmental conditions.

Research reveals unique chiral magnetic states in strontium ruthenate material.

Single-photon emitters are essential for secure quantum communication networks.

A look at dimer models and their applications in various scientific fields.

A new solver method improves efficiency for Cahn-Hilliard equation in materials science.

Researchers are enhancing M-type ferrites by incorporating cobalt and lanthanum to improve magnetic properties.

Analyzing gallium atom movement to enhance gallium oxide performance in electronic devices.

Researchers unveil unique LaSb thin films showing superconductivity at higher temperatures.

This study examines the unique behavior of Janus colloids in mixtures and their interactions.

A new approach to tackle non-equilibrium radiation diffusion problems in materials.

Research uses machine learning to quickly predict properties of organic salt crystals.

An overview of the forces at play in quantum friction between metallic surfaces.

Research reveals promising spin properties in graphene layers influenced by SnTe interactions.

New techniques allow precise control over tiny particles using light.

Research reveals new phases in non-Hermitian Kondo models driven by energy dissipation.

DyFeO3 enhances performance of aqueous supercapacitors, improving energy storage capabilities.

Study reveals effects of NiO on Permalloy magnetic properties.

This article explores how tracers move within polymer materials and its implications.

Research reveals unique behaviors of neodymium nanomagnets at tiny scales.

MKIDs enhance energy detection across various scientific fields.

Research reveals how temperature impacts the unique properties of Ca3Ti2O7.

Researchers study strong coupling to reveal new material properties through light interaction.

Examining new methods for studying light-matter interactions in different systems.

New method enhances molecular model accuracy through automated parameter refinement.

Discover how mathematical models explain phase transitions in materials and biological systems.

Innovative techniques improve modeling of molecular interactions and dynamics.

New methods enhance control over single photon polarization using nanopillars.

Exploring how quasiperiodic structures influence superconducting materials.

New research reveals how disorder impacts sound behavior in acoustic crystals.

Examining giant atoms' interactions and coherence in complex 2D environments.

A study on how forces affect the movement of liquids and glass transitions.

Researchers investigate unusual properties of copper-oxide materials using advanced methods.

A look at how quantum mechanics and classical physics intersect in large objects.

Research reveals how light influences molecule behavior and magnetic properties in optical cavities.

Study reveals new methods for identifying defects in materials using sound waves.

SiNPhAR utilizes silicon nitride to enhance photonic acceleration in deep learning tasks.