Latest Articles for Material Science

Examining domain growth dynamics in an asymmetric Coulomb glass model.

Researchers develop a low-power approach to control light interactions with materials.

Vanadium dioxide shows potential for advanced technology due to its special properties.

Researchers develop a model that enhances stability in molecular dynamics simulations.

Investigating how electrons behave in the unique geometry of graphene Möbius strips.

QMBS challenge our views on thermalization in quantum systems.

Study of how solvents influence molecular stability and interaction energy.

Researchers study reconfigurable intelligent surfaces to enhance wireless signal control.

New principles pave the way for studying non-Hermitian materials without adverse effects.

Ptychography enhances atomic-level imaging, revealing detailed movements of atoms.

An overview of topological insulators and their unique properties.

Exploring the interactions of fermions in the 2D Hubbard model.

Research reveals how FeRh's nanoislands respond faster to heat and light changes.

Exploring how defects influence the behavior of Wigner crystals in two-dimensional materials.

Discover how strong light modifies the electronic properties of materials.

Examining how geometry impacts electron flow in two-dimensional systems.

Study reveals how electric fields can control magnetization in two-dimensional magnetic materials.

Researchers investigate how colloids move and interact under light exposure.

This study examines how spin and acoustic waves interact in acoustic cavities.

New methods improve accuracy and efficiency in materials with defects.

Researching interactions and calculations in complex systems using new methods.

A new method for manipulating edge states enhances quantum operations and information transport.

Research reveals how structure impacts polymer failure and stability.

Examining how amorphous solids behave under stress through the Eshelby problem.

Researchers reveal profound connections between dimer models and aperiodic spectre tiling.

Research reveals insights on water interactions with metal oxide surfaces.

Helimagnets exhibit unique spiral magnetic structures with significant implications for technology.

Exploring stability and interactions in quantum systems.

New method improves manipulation of nuclear spins in NV centers for enhanced measurements.

Discover the fascinating properties and behaviors of Weyl superconductors.

Research unveils fascinating properties of zigzag-square lattice materials under magnetic fields.

A study on creating specialized constant mean curvature surfaces with unique topological properties.

Exploring the behavior and interactions of dipole emitters in quantum systems.

This study examines Hall conductance changes in three-dimensional materials.

Examining how laser pulses influence magnetism and domain wall behavior.

Hopf semimetals offer groundbreaking properties for materials science and technology.

Research reveals how vortex beams change upon reflection.

A look into Cosserat solids and their significance in material science.

Researchers study silicon's behavior under high pressure for material science advancements.

Research reveals complex behaviors affecting superconductivity in twisted bilayer graphene.