Latest Articles for Materials Science

An overview of second harmonic generation and its relevance in physics and materials science.

This article examines a model for phase changes in materials like steel and ice.

Research reveals new insights into Mott insulators with spin-charge separation and RVB states.

A look into the behavior of polymeric fluids through the compressible FENE model.

Research reveals how open quantum systems interact and transition between phases.

This article examines wave behavior using nonlocal wave equations and their regularity.

Research reveals key factors influencing coercivity in SmCo-1:7 magnets.

New methods in quantum computing improve energy calculations for materials at the atomic level.

Quantum computing could reshape chemical research and simulations.

A new method improves predictions of organic compound properties using machine learning techniques.

A detailed approach to estimating hyperuniformity in various natural systems.

Recent studies reveal insights into silicon's structure under high pressure and temperature.

This study looks at how small particles behave during low-speed collisions.

Exploring charge behavior in Quantum Charge Liquids and their implications in material science.

This article discusses how disorder influences the behavior of Chern-Hopf insulators.

Researchers are using sound waves to control electric properties in ferroelectrics.

Study of charge density waves reveals new thermal behaviors in materials.

Recent advancements in studying warm dense matter using Bohm SPH show promising results.

A look into the unique thermodynamic properties of Fermi gases and their implications.

Scientists develop devices to generate single photons and squeezed light for quantum applications.

Exploring the unique behavior of plasmonic random lasers and their potential applications.

Machine learning is transforming how we study and predict material behaviors.

Exploring solitons in networks and their applications in technology.

Researchers break down complex molecules into fragments for better analysis.

Exploring new techniques for studying fluid movement in porous materials.

A model revealing how electrons move in and out of quantum dots.

Study reveals complex interactions in FeGe, showcasing charge density waves and magnetism.

How salt concentration impacts metal surface potential in solutions.

New methods enhance study of dark states in materials.

This article examines the Kondo effect and its implications in magnetic spin systems.

Exploring how solvation impacts battery efficiency and ion movement.

Discover how droplets interact with surfaces through contact angle and friction.

Research reveals how light influences the unique properties of topological semimetals.

Exploring the surprising order behavior in physical systems, particularly Rochelle salt.

Research on moiré superlattices reveals new phases in layered materials.

Patterned dielectric superlattices reshape graphene's electronic properties for future technologies.

Research investigates superconductivity potential in heavily-doped single-layer graphene.

Investigating the impact of twist angles on the electronic properties of graphene layers.

Study of how electric currents affect electron spins in various materials.

This study investigates how bubbles burst in different fluids and the effects on droplet formation.