Latest Articles for Material Science

Research reveals insights into exciton behavior in two-dimensional materials under light pulses.

Research reveals benefits of non-planar blocks in enhancing stability and energy absorption.

A look into -wave holographic superconductors and their unique properties.

A look at the Monge-Ampère system and its applications across various fields.

A fresh approach to understanding energy levels in complex physics systems.

Study reveals unique quantum behaviors in magnet domain wall movements.

Study analyzes how strain and adsorbates affect polarization in ferroelectric materials.

This study explores how long-range interactions affect quantum critical points.

Research reveals complex interactions between light and artificial atoms in waveguides.

New methods reveal potential of topological phases for technology and research.

A Python tool analyzes C-S-H growth in cement, enhancing measurement precision.

Research reveals unexpected behavior of Seebeck coefficient with temperature changes.

New techniques reduce quasiparticle poisoning, enhancing superconducting qubit performance.

Examining how finite temperature influences quantum materials and phase transitions.

Study reveals unique properties of LaFeSiH, a promising superconducting material.

Metts revolutionizes the simulation of quantum systems at low temperatures, enhancing research efficiency.

Examining how mechanical strain and magnetic fields affect carbon-based materials.

This article discusses the unique properties of dipolar ferromagnets and their critical behaviors.

Delving into the complex relationship between light and matter in polaritonic chemistry.

Exploring the properties of BiP triphosphide for electronic devices.

A look at CD-ARPES and its impact on material science.

Research on americium sesquioxide reveals key insights for nuclear energy technologies.

A study on combustion models reveals unique solutions for multilayer porous materials.

Exploring the complexities of Casimir forces in modern technology.

Researchers study robust topological edge states using Rydberg atoms and various arrangements.

Researchers develop essential pseudopotentials for actinides and super-heavy elements.

This study investigates exciton behavior in semiconductor nanocrystals within optical cavities.

Nitrogen-vacancy centers offer unique applications in quantum computing and sensing.

PAUL is a flexible soft robot arm designed for versatile movements and applications.

This study examines how surface anisotropy influences spin wave behavior in planar square dots.

Exploring the unique properties of UTe and its spin-triplet superconductivity.

An analysis of heat transfer in rotor chains under varying conditions.

Uncovering the unique properties and stability of magic angles in twisted bilayer graphene.

Exploring particle movement in one-dimensional systems under various driving forces.

A look at artificial spin ices and their role in magnetism research.

A look at new materials for hypersonic vehicles and their challenges.

Examining the coexistence of solid and liquid states in two-dimensional electron systems.

New methods for detecting skyrmions may enhance future electronics and computing.

Research advances understanding of zinc isotopes using laser-induced fluorescence techniques.

Study reveals multiple charge states and their implications for material properties.