Latest Articles for Materials Science

Exploring cut-and-project sets and their role in understanding aperiodic structures.

Exploring how antennas behave near topological insulators and their unique effects.

A look into the unique properties of ferrites and their applications.

New methods improve the search for solid-state ion conductors in energy storage.

Exploring how quantum paraelectric metals enhance spin transport through unique phonon interactions.

This article examines how soft and hard inclusions influence crack movement.

A look into the behavior of minimizers in variational problems and their importance.

This article explores the unique properties of superfluids near critical temperatures.

Machine learning streamlines the study of defects in materials, enhancing prediction accuracy.

Study reveals unique flow behaviors of wormlike micellar gels in confined spaces.

A new quadrature microwave antenna improves control over diamond NV centers.

This study reveals a new method for analyzing titanium microstructures with machine learning.

Research reveals methods to manipulate the phases of InAs/GaSb materials using light and electric fields.

Investigating how missing atoms affect electronic properties in 2D materials.

Kagome superconductors show unique behaviors in low-temperature conductivity and electron pairing.

A novel approach improves speed and accuracy in predicting crystal properties using machine learning.

Learn how excited states impact materials and reactions.

Research advances the understanding of quantum spin liquids and Majorana fermions using the spin Seebeck effect.

Exploring the microstructural behaviors of superalloys during aging processes.

A study on modeling elastic bodies under friction for improved engineering accuracy.

This research unveils the behavior of ferroelectric superlattices under varying temperatures.

Researchers improve self-energy methods for better electronic behavior predictions.

Research shows memristors can emulate neuron behavior by emitting light during electrical switching.

Study of percolation using different filling probabilities on special grids.

Research reveals insights on NV centers and their charge cycling under different light conditions.

Ionic liquid crystals offer new prospects in energy storage and advanced materials.

Investigating LaNiO’s unique properties and its potential for superconductivity.

A new algorithm improves accuracy in simulating particle movement in fluids.

Research investigates the combination of nematicity and superconductivity in materials.

Exploring the synergy of silicon photonics and neural networks for efficient information processing.

Exploring advanced materials with unique electronic properties and their potential applications.

Research reveals how ferrofluid can effectively lower drag in water flows.

Examining how laser pulses change solid materials and their properties.

A new method improves efficiency in studying microstructure changes in materials.

New model improves accuracy and speed in atomic-level research.

This article explains how scientists study key ions in water using computational methods.

FeGeTe reveals unique behaviors under temperature and magnetic influences, impacting technology.

A new method solves complex quantum problems more efficiently using quantum computers.

Studying edge singularities and their implications in fermionic interactions.

Researchers are studying toroidal dipoles for advancements in technology and materials.