Latest Articles for Materials Science

A look at order fractionalization and its significance in condensed matter physics.

Discover how Response Matching transforms material and molecule generation.

This study assesses GPT-4's ability to extract data from materials science literature.

New method sheds light on nucleation and crystal formation.

Investigating the formation and stability of fractional Chern insulators in novel materials.

Investigating the unique electronic behaviors of twisted bilayer WTe under different conditions.

Exploring how materials react to electromagnetic fields and their applications.

Examining the dynamics of bubbles in liquid foams and their real-world implications.

Research reveals unique interactions in magnetism that could change technology.

Researchers are enhancing ion flow in ceramics for better energy technologies.

A new spectrometer enhances neutron studies of complex materials.

New insights into magnetic topological insulators may reshape electronics and spintronics.

This article discusses recent developments in non-Hermitian systems.

Explore the significance of fermionic systems in quantum physics and their unique properties.

Examining how heat impacts superconductivity and resistance in materials.

A look into the spontaneous exchange bias effect and its implications in magnetism.

Research reveals complex electron behavior in next-nearest neighbor SSHH model.

Research reveals how phonon interactions shape magnetic properties in unique materials.

Research reveals connections between charge density waves and Kramers nodal lines in materials.

This article discusses forming crystal structures using tetravalent patchy particles.

Research explores electron behavior changes in stacked 2D materials at low temperatures.

Researchers manipulate optical lattices to study topological properties for future technologies.

A tool designed to streamline gathering material properties from scientific literature.

A new method improves predictions for flexible fiber behavior in fluid environments.

Innovative strategies enhance material predictions using machine learning surrogates.

New waveguides improve photon pair generation for quantum technologies.

An overview of fluorescence decay and quenching phenomena in science.

Learn about laser-induced periodic surface structures and their practical applications.

Exploring the magnetocaloric effect and its applications in cooling systems.

Researchers examine how light changes behavior in atomic systems during phase transitions.

A look into how foams change and behave in various applications.

Tiny magnetic formations could transform data storage and computing.

Study explores superconducting properties of ScTe with iron, cobalt, and nickel.

A look into how quantum and classical systems influence each other.

Active matter systems are driven by energy, showcasing unique behaviors through interactions.

A new imaging method combines second-harmonic generation with optical diffraction tomography for detailed sample visualization.

Research focuses on finding innovative optical materials using machine learning and vast databases.

TbTiBi reveals complex magnetic and electronic properties in kagome metals.

A study on the behavior of caloric capacity in heat transfer systems.

Exploring superfluid weight's role in superconductors with flat energy bands.