Latest Articles for Materials Science

Exploring new findings in quantum states, particularly involving charge order and topological order.

Study analyzes how NePCM melts under different conditions and its implications for energy storage.

Explore how the nonlocal Allen-Cahn equation affects phase separation and material design.

Examining the unique behaviors of quasicrystals and their superconducting properties.

A novel approach enhances accuracy in predicting Hamiltonians for materials.

Examining the role of triplet states in innovative photosensitizers without heavy atoms.

Examining how temperature affects charge carrier interactions in HgTe quantum wells.

Doped TMDs show potential for magnetic semiconductor applications in spintronics.

Scientists investigate a unique state of matter known as liquid glass.

Machine learning accelerates the study of ternary carbides in materials science.

A look at how random paths interact with disorder in materials.

Exploring the behaviors of three fermions in a confined space.

Researchers study how surface charges affect chemical reactions in nanoparticles using advanced techniques.

A study on improving heat retention through effective insulation design.

New insights into how alginate gels flow in narrow spaces.

Exploring the link between sound waves and magnetic waves for advanced technology.

Exploring how hydrogen affects the properties of β-MnO in batteries and catalysts.

Exploring how machine learning enhances the understanding of the anomalous Hall effect in non-collinear magnets.

Study of GAGG:Ce crystals for satellite gamma-ray burst monitoring.

A look at how quasienergy and Floquet eigenstates reveal system behaviors.

New hybrid method enhances study of matter using X-ray lasers.

Exploring how particles move through topological pumping in quantum systems.

A novel method reduces energy needs in nanoparticle manipulation through low friction surfaces.

Exploring the phases and transitions in a spin- model on a square lattice.

Exploring how magnetism influences the shape of ferromagnetic elastic ribbons.

A closer look at the Ising model and its implications in material science.

New method speeds up DFT calculations, enhancing materials research.

An overview of duality symmetries and multicritical points in theoretical physics.

This research explores how active colloids self-organize through chemical reactions.

Research reveals exciton behavior in polymer semiconductors for better electronic devices.

X-ray absorption spectroscopy reveals electronic structures of ferrites for improved applications.

Examining the Kondo effect and its impact on materials with magnetic impurities.

Exploring the behavior of materials during phase transitions and their underlying principles.

A fresh method enhances efficiency in quantum particle simulations using statistical averages.

Research reveals complex behaviors of neutral plasma with long-range interactions.

Exploring fractional wave models and solitons in physics.

Research on HeC60 reveals important behaviors of trapped helium in fullerenes.

This article explains how polarimetry helps measure particle sizes on the Moon and asteroids.

A novel approach improves solutions for non-linear material behavior in engineering.

Explore the fascinating world of optomechanical interactions and their applications.