Latest Articles for Material Science

A look at elastic properties and thermal conductivity in materials.

New techniques enhance understanding of strain localization in materials under stress.

Examining how fluids and solids interact in everyday scenarios.

Researchers use Instantaneous Normal Modes to study complex liquid dynamics.

Research shows strain boosts light emission in TMDs and InSe layers.

Research reveals efficient control of NV centers using magnetoelastic waves.

Research reveals methods to manipulate solitons in magnetic materials using edge modes.

Study reveals how varying shapes affect particle packing in one-dimensional space.

Examining the link between piezoelectricity and superconducting qubit performance.

Explore how randomness affects physical systems and material properties.

Exploring theoretical models to analyze properties of two-dimensional materials like graphene.

A new framework streamlines microstructure design using natural language commands.

Exploring the creation and potential of magnetic metamaterials using ion implantation.

Research highlights the unique behaviors of the multifractal critical phase in 2D quasiperiodic systems.

Learn how Brinkman fluids behave under different forces in various environments.

A study on magnetic behavior and electronic properties of the Weyl semimetal Mn Sn.

Researchers enhance imaging techniques via entangled two-photon absorption for delicate samples.

Study reveals insights into charge and spin dynamics in unique electronic materials.

The displaced Drude peak reveals intriguing optical properties in correlated materials.

Research reveals crucial details about defects in phosphorene affecting electronic applications.

Exploring flatbands and their implications in materials and physics.

Explore the behavior and applications of liquid crystals in technology and research.

New methods improve predictions for materials with strong electronic interactions.

An overview of Na Co TeO's magnetic properties and their significance.

New findings raise concerns over superconductivity claims in hydrogen-rich materials.

Study reveals phase and amplitude behavior of SPhPs in gallium phosphide.

A thin rod lifts granules, revealing complex friction and pressure interactions.

Study reveals how heat moves in oscillator chains with long-range interactions.

An overview of nanoparticle characterization using microscopy techniques.

A look into the latest developments in QEDFT and its implications.

A new method integrates graph neural networks for enhanced molecular simulations.

Researchers enhance machine-learning models for better predictions of complex materials.

Research reveals the role of localized defects in the boson peak phenomenon.

An exploration of how water acts in narrow spaces with hydrophilic surfaces.

Examining how grain boundaries influence material properties and behavior during heating.

Innovative light guide designs enhance energy measurement in SpaCal calorimeters.

Research highlights chiral superfluidity's behavior in confined helium-3 films.

Researchers are studying how light interacts with heavy atoms to reveal new chemical behaviors.

Explore the factors that influence bacterial shapes and their growth patterns.

New quasicrystalline materials show promise for strength and flexibility in various applications.