Latest Articles for Material Science

Exploring the links between van Hove singularities and exceptional points in physics.

Research shows unique wave behaviors at boundaries of triangular Heisenberg antiferromagnets.

Explore the unique phases and properties of graphene under strong magnetic fields.

Exploring the future of information storage with quantum memory.

Research reveals innovative control of light using electric fields in CrGeTe.

Examining how impurities affect the conductivity of transition metal dichalcogenides.

Explore the complex behavior of freezing droplets and their interactions.

Exploring how perovskite superlattices behave under different conditions.

New methods improve material behavior predictions using advanced neural networks.

La Ni O shows promise as a superconductor at high temperatures under pressure.

KANs bridge AI and science, simplifying complex problems and enhancing research.

Research reveals a new type of skyrmion with unique properties in superfluids.

CuD's unique properties reveal insights into quantum magnetism.

CaZnFeOsO exhibits unique electric and magnetic properties for future tech applications.

This article discusses prethermalization effects in classical rotors under different energy applications.

Kagome metals exhibit unique properties with potential applications in technology and electronics.

Research reveals how in-plane magnetic fields influence the conductive state of bilayer graphene.

Research reveals surprising changes in electrical behavior of pentalayer graphene.

Isotopic disorder significantly impacts electron movement in materials, leading to unique scattering behaviors.

Researchers enhance the optical Kerr effect using guided-mode resonance gratings for advanced photonic systems.

Research reveals quantum and anharmonic effects on H Se's superconducting properties under pressure.

Research reveals new methods for imaging sensitive samples with minimal damage.

Exploring how magnetism influences current flow in twisted Weyl semimetals.

This study examines how impurities impact vortex lattices in rotating Bose-Einstein condensates.

Exploring the thermal behavior of molten salts for energy applications.

New materials and techniques improve the efficiency of mid-infrared optical waveguides.

Innovative techniques enhance the efficiency of thermoelectric generators using machine learning.

This article examines how polystyrene films change when heated.

An overview of the inverse obstacle problem and its implications in imaging.

Exploring the impact of magnetic impurities on superconducting properties through YSR states.

Study droplet behavior on surfaces with different stiffness for various applications.

A new method for better understanding multi-part systems in various fields.

A new framework focuses on spin's impact on matter behavior.

Investigating spin chains reveals complexities in magnetic behavior and quantum states.

A new approach enhances reliability for electronic devices using aluminum oxide on gallium oxide.

Research on using nanoparticles for stable emulsions in food, cosmetics, and pharmaceuticals.

Scientists study pure crystals with erbium for advanced applications.

Research reveals new aspects of Coulomb drag in low-dimensional systems.

This article examines how droplet size, speed, and material affect their behavior upon impact.

NeuralMPM speeds up material simulations using deep learning techniques.