Latest Articles for Materials Science

A new neural network model improves simulations of surface growth under various noise conditions.

Exploring the complexities of a one-dimensional spin model and its implications in physics.

PotNet improves predictions of crystal properties using interatomic potentials.

A new microring modulator design enhances performance for faster communication.

A look at how quantum geometry influences capacitance in insulators.

New methods improve efficiency in studying complex quantum systems using iPEPS.

Examining heat exchange between tiny particles and the role of cavities.

Explore the significance of kinetoplasts in research and potential applications.

Study reveals how self-propelling particles create patterns through unique interactions.

Researching 4Hb-TaS reveals intriguing connections between magnetism and superconductivity.

Research reveals how pressure influences superconductivity in the material LaNiO.

Discover the future of materials with unique mechanical properties and versatile functionalities.

Examining how disorder and electron interactions influence relaxation dynamics in materials.

Research highlights promising thermoelectric materials for energy efficiency.

Examining granular materials' flow properties and their importance across various industries.

Scientists study Kitaev chains in quantum dots for future tech.

A look into the behavior and applications of charged particle fluids.

Liquid-crystal devices show promise for enhancing terahertz technology across different fields.

A new method enhances density matrix embedding theory for better electron behavior studies.

A closer look at how materials change shape under stress.

Research enhances radical pair reactions using magnetic fields for improved outcomes.

Research reveals how light influences magnetization in two-dimensional electron gases.

Examining loop structures in antiferromagnets and their temperature-dependent changes.

New research reveals potential of barocaloric effects in efficient cooling technologies.

A look into the properties and measurements of nearly spherical sets.

Research on NbS and MoSe/WSe materials offers new electronic properties.

Research reveals new methods to analyze the unique properties of space-time crystals.

Exploring the unique properties and applications of CuInP S in technology.

Exploring the complex world of multipolar spin liquids and their potential applications.

Learn how electron ptychography enhances material imaging at atomic scales.

Using quantum technology to model essential forces in materials and biology.

A new method improves quantum simulations of electronic states in molecules.

Machine learning enhances the design of unique amorphous metal alloys.

Examining the distinct properties and structures of liquid bismuth for technological advancements.

Chirality enhances thermal management and magnon transport in electronic devices.

A new method simplifies microstructure reconstruction using ellipsoidal shapes for improved material design.

Recent advancements in sensors enable detection of magnetic fields using spin qubits in hexagonal boron nitride.

New techniques improve our understanding of cellular forces and interactions.

A fresh approach improves studies of magnetic interactions in complex materials.

This model helps study particle movements influenced by external forces in various systems.