Latest Articles for Material Science

Two-dimensional materials are reshaping device technology with their unique properties.

Researchers uncover behaviors of metallic glasses under high frequencies and temperature.

A new framework automates crystal design using machine learning techniques.

New AI model LDMol enhances molecule generation using text descriptions.

Researchers develop a device to study edge magnetoplasmon waves and anyonic properties.

Research reveals unique behaviors of charge and spin density waves in bilayer graphene.

Discover the unique superconducting properties of rhombohedral trilayer graphene.

This study looks at how small particles move in stretchy fluids under force.

Explore the fascinating world of phase transitions and their implications in physics.

This article examines how sound waves behave in a lattice structure.

Scientists create a hybrid material to improve neutron detection for dark matter research.

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

A look at the role and applications of ferromagnetic materials in technology.

A novel approach simulates how molecules interact with light using machine learning.

A method for solving complex quasiperiodic elliptic equations using the projection technique.

Researchers advance understanding of LaNiO's superconducting behavior under pressure.

Examining how small changes impact the behavior of complex materials.

Modular spin-circuits merge physics and technology for advanced computing solutions.

A look at the Stefan problem and the behavior of phase changes.

A look into the unique properties and implications of high-temperature superconductors.

A novel method enhances solutions for complex spatiotemporal equations in science.

New techniques improve speed and accuracy in studying light interactions with materials.

Discover the unique properties and potential applications of time crystals in physics.

Examining the unique superconducting properties of UTe under varying conditions.

An analysis of Gaussian wave packet behavior across various potential fields and methods.

Scientists leverage machine learning to optimize Kitaev chains for Majorana state discovery.

A look into knot invariants and their properties.

NbN thin films show promise in electronics and optical technologies due to their unique properties.

This article examines how filament cross-section shapes affect their packing arrangements.

Examining the unique properties and implications of mixed-state topological orders.

Research reveals methods to control phase transitions in SbS materials using lasers.

Scientists study fractonic matter using Rydberg atoms to explore unique phase transitions.

Research on HgTe reveals unique electron interactions and their effects on conductivity.

Discover how sliding layers of atoms influence electrical properties.

Exploring local conservation of angular momentum in light-matter interactions.

Exploring how temperature affects signal clarity in two-dimensional electronic spectroscopy.

New methods improve heat management in various technologies.

Research reveals key properties of Phobos and its simulants for future exploration.

Exploring Andreev levels and their significance in superconductivity and quantum systems.

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