Latest Articles for Materials Science

Research on FeBr2 explores its unique electronic and magnetic properties.

This article presents a method to study interactions between weak acids and polymers.

Research delves into kagome lattices and their unique superconducting properties.

Researchers reveal innovative methods for controlling light in complex materials.

This article explores how liquid particles move and their unique dynamics.

Researchers combine machine learning and scaling theory to improve wave confinement studies.

A look at tracking schemes for resonance frequency measurements in tiny devices.

Research reveals tantalum as a key material for improving qubit efficiency.

A simplified approach enhances the study of topological orders and anyons in quantum physics.

Research reveals how Q-factor influences polariton behavior and energy transfer in materials.

Exploring how layer thickness and disorder affect conductivity in superlattices.

Fracton phases reveal unique behaviors in particles, challenging traditional material science.

Examining how magnons scatter in skyrmion crystals reveals key physical principles.

Research introduces an AI-based method to measure material hardness effectively.

Research reveals how growth conditions affect the magnetic properties of rare earth-transition metal films.

Researchers study spin liquids and their behavior after quantum quenches for potential applications.

A new method for precise strain application in MoS2 using piezoelectric materials.

Recent findings reveal the complex dynamics of hydrogen in barium hydrides under pressure.

An overview of spin liquids and their intriguing magnetic properties.

A study on using mathematical models to shape materials efficiently.

Examining how data quality improves machine learning in materials science.

Exploring how strong light influences materials at the quantum level.

New methods enhance liquid crystal manipulation using acoustic waves and fluid flows.

Research reveals how temperature affects spin qubit frequencies and performance.

Research reveals rapid magnetization switching in antiferromagnet/ferromagnet systems using terahertz pulses.

Researchers study how materials behave under laser-driven conditions.

Exploring the effects of material curvature on electron behavior.

Researchers study charge exchange between materials during contact electrification.

New tools developed for studying quantum magnetism using ultra-cold Dysprosium atoms.

This article examines how temperature affects the movement of charged colloidal particles.

Discover how polymer chain length affects the strength of materials.

Study reveals how polarization behaves during topological phase changes in two-dimensional systems.

Researchers study how magnetic fields affect the conductivity of unique semiconductor materials.

Investigating magnon condensation in quantum magnets with spin-orbit coupling and external fields.

Research on tungsten transport and its effects in fusion tokamaks.

New polynomial methods enhance x-ray imaging techniques for clearer 3D visualizations.

Researchers develop innovative techniques for generating nuclear spin cat states.

Research reveals key electronic properties of Sr RuO using advanced Raman techniques.

NIMS-OS streamlines materials research through AI and robotics for rapid discoveries.

A technique that enhances the transfer of thin films for advanced optical devices.