Latest Articles for Materials Science

Study of how magnons behave in graphene junctions reveals new electronic properties.

New techniques improve electron beam quality for scientific applications.

A new theory improves solid-state NMR analysis by accommodating non-periodic Hamiltonians.

A look into the BKT transition and its significance in superconductivity.

Exploring the concepts and applications of superconductivity in modern science.

This article discusses liquid crystals' role in guiding tiny particles in microfluidic systems.

Research reveals the effects of pressure on electron behavior in twisted bilayer WSe.

Researchers visualize key edge states in fractional Chern insulators using innovative microscopy.

This article explores the unique properties and applications of graphdiyne-based materials.

This study examines how size influences the magnetic behavior of cobalt oxide nanoparticles.

An overview of Michell trusses and their applications in engineering.

A new model reveals insights into how liquid thin films freeze.

This study explores the role of superconductors in enhancing MKID performance.

Examining how temperature and stress influence amorphous solids’ flow behavior.

Researchers use light in cavities to alter superconductivity in materials.

This study analyzes the XXZ Heisenberg model on square and honeycomb lattices.

This article investigates how pebble shapes change through motion and environmental factors.

Researching orbital angular momentum's impact on advanced electronic devices.

Exploring tensor neural networks to improve solutions in complex multiscale scenarios.

Exploring the unique features and potential of one-dimensional topological superconductors.

Exploring how light interacts with materials in complex ways and its applications.

Combining scattered and regular nodes improves accuracy in complex problem solving.

A new model enhances our understanding of membrane behavior in living systems.

This article examines bubble formation and microlayer dynamics in varying pressure conditions.

Examining how water behaves differently in hydration and confined spaces.

Research reveals new insights on superconducting diodes using Josephson junctions for efficient current management.

Research focuses on improving low-order finite elements for better material simulations.

A new approach enhances electron interaction calculations, making them faster and less memory-intensive.

Explore the mechanisms and significance of phase transitions in materials.

Research reveals unexpected behaviors in disordered superconductors, impacting future technologies.

Research on how light affects energy transfer in molecules offers new insights.

New model integrates thermal and mechanical effects in stereolithography.

This study investigates how cobalt spins in quantum dots respond to light interactions.

Researchers utilize ULM to enhance the study of liquid metal flows and their applications.

Research sheds light on edge states and higher Hall conductivity in topological materials.

Examining how tilted light affects superconductors' plasma waves.

CeRhAs presents intriguing superconducting and magnetic phases affected by temperature and fields.

New hybrid systems using spin waves and skyrmions promise efficient computing.

New method simulates how tungsten pillars react to compression, aiding material design.

Research reveals how laser exposure alters carbonaceous asteroids' surface properties.