Latest Articles for Material Science

Machine learning offers insights into the behavior of viscoelastic fluids across industries.

Studying defects in materials can lead to improved performance in various applications.

Recent research reveals new magnon modes in skyrmion lattices, paving the way for advanced technologies.

Researchers manipulate electron spins in quantum dots to improve quantum computing technologies.

Learn how to view hidden objects behind opaque materials using innovative optical techniques.

This study focuses on developing models for topological insulator materials.

Researchers improve resonator efficiency with single-crystal silicon carbide, reducing energy loss.

Discover how machine learning reshapes material behavior modeling.

Study reveals unique magnetic behaviors in chromium trihalides, impacting future technology.

Explore how compression affects beam vibration and design for optimal frequency.

This study examines geometric phase changes in two-level atoms near dielectric nanospheres under non-equilibrium conditions.

A look at how the HHO method improves material behavior analysis.

Examining how crystallization impacts Ge-rich GeTe alloys in phase change memories.

New designs improve optical traps for manipulating tiny particles.

G centers in silicon show promise for advancements in quantum technology.

A study on improving material shock response predictions using impulse-based methods.

Study reveals key behaviors of exciton-polaritons for future technology advancements.

A new model improves dielectric elastomer applications in soft robotics.

Examining the behavior of active polymers under varying conditions of activity and inertia.

Examining how electric and magnetic waveguides affect electron behavior in graphene.

This study presents a model analyzing how fractures develop in rocks under heat and pressure.

Discover how advancements in materials and design improve magnetic field concentrators.

Exploring current behaviors in normal metal-superconductor junctions through Andreev reflections.

A new model analyzes how substances flow through changing materials, with implications for medicine.

This article explores how electron spin affects their movement in quantum physics.

A new method enhances model accuracy in material science through AI integration.

Researchers analyze spin helices' behavior affected by immobile holes in one-dimensional models.

Blending quantum tech and NMR for molecular insights.

A look into thermodynamics and its role in heat transfer.

Two-dimensional materials are reshaping device technology with their unique properties.

Researchers uncover behaviors of metallic glasses under high frequencies and temperature.

A new framework automates crystal design using machine learning techniques.

New AI model LDMol enhances molecule generation using text descriptions.

Researchers develop a device to study edge magnetoplasmon waves and anyonic properties.

Research reveals unique behaviors of charge and spin density waves in bilayer graphene.

Discover the unique superconducting properties of rhombohedral trilayer graphene.

This study looks at how small particles move in stretchy fluids under force.

Explore the fascinating world of phase transitions and their implications in physics.

This article examines how sound waves behave in a lattice structure.

Scientists create a hybrid material to improve neutron detection for dark matter research.