Latest Articles for Material Science

This study examines the behavior and dynamics of dusty plasmas and turbulence.

A new method improves fluid and solid contact in simulations.

New insights on a-SiN using machine learning and simulations.

Exploring unique phases of quantum materials and their implications for research.

A new framework enhances coarse-grained molecular simulations for researchers.

Research reveals new material behaviors through light interactions in cavities.

This article examines the behavior of electrons near Fermi surfaces under weak magnetic fields.

Study reveals the role of Coulomb scattering in ballistic photocurrents and their potential benefits.

Examining unique tiling patterns and their implications in material science.

This article discusses how sound waves affect droplets in liquids.

New fiber collimators improve light measurement in sensitive environments.

New findings challenge established theories on TiSe2's phase transition behavior.

Research focuses on polymer electrolytes to enhance solid-state battery performance and safety.

A novel gate layout improves valley-polarized current generation in two-dimensional materials.

Scientists study quantum spin liquids for insights into advanced technology.

New interactive system enhances material analysis through combined imaging methods.

Study reveals how friction affects our ability to identify textures.

Boulby Underground Laboratory enhances material screening for research with advanced detectors.

Research reveals unique properties of zigzag-edged CrN nanoribbons for future technologies.

A closer look at how droplet arrangements affect evaporation rates.

Study reveals factors affecting the stability of liquid films in dip-coating.

Research delves into droplet behavior in dynamic environments, revealing complex interactions.

A new method reveals insights into quantum materials through self-energy analysis.

Research enhances models for deep eutectic mixtures with unique properties.

Investigating the unexpected signals in low-energy semiconductor detectors.

Explore the role and applications of total variation energies in various fields.

This method improves the understanding of soft materials like hydrogels through bubble dynamics.

A study on using microwave spectroscopy to examine Andreev bound states in semiconductor junctions.

A fresh method reveals deeper understanding of polymer movements.

Exploring the role of excited states in chemical reactions and electron behavior.

Learn how solvents influence the behavior of different substances.

mBLOR functional enhances Density Functional Theory for better material predictions.

Exploring the Casimir effect and its implications across various particle systems.

DST fluids change from liquid to solid under stress, offering diverse applications.

Exploring how defects influence entanglement in quantum systems.

Research reveals unique magnetic phases in the spin-1/2 Kitaev-Heisenberg model.

A look into the factors influencing liquid viscosity and its applications.

A new method enhances the design of phononic materials for sound control.

Scientists reveal how light induces fast state changes in materials.

HTOCSP speeds up predictions for organic crystal structures using automated methods.