Latest Articles for Material Science

New multimode optomechanical systems enhance interaction between light and mechanics for advanced applications.

Recent studies indicate Cu-substituted apatite may conduct electricity without resistance at room temperature.

This study presents a field theory for understanding antiferromagnetic materials.

An overview of quantum critical points and related phenomena in physics.

This article discusses compositeness and its implications in quantum field theory.

Exploring the interaction between superconductors and magnets for future technologies.

Researchers develop methods to clarify electrical signals in magnetic topological insulators.

Research reveals how polyacetylene arrangements influence energy and conductivity.

Exploring recent insights into quantum control strategies and their implications.

Study reveals particle behavior in BaCo V O with magnetic field applications.

Research reveals complex behaviors of electrons and holes in layered materials.

Study reveals how radiation impacts iron and chromium alloys for nuclear use.

This article examines how surface types influence water droplet dynamics.

The new mon qubit design enhances quantum computing efficiency and reliability.

Study reveals how potassium-39 atoms interact with patterned magnetic films.

Exploring the electronic properties of twisted bilayer graphene and its unique phases.

A personal account of key experiences in perovskite research with Alex Müller.

Research reveals new insights into superconductivity in field-cooled magnetic materials.

Applying pressure can improve the thermoelectric properties of MoS₂ significantly.

Study reveals how particles interact in a rotating coaxial cylinder.

Research reveals new magnetic phases in nickel dihalides, including skyrmions and biskyrmions.

This study explores charge density waves and magnetism in FeGe through annealing.

Recent studies show light can change material magnetic properties via spin-phonon coupling.

Examining how temperature affects superconductivity and topological properties in materials.

New methods improve understanding of flexural wave behavior in engineering structures.

Exploring how surfactants affect Faraday wave formation in liquids.

How negative curvature influences particle movement in quantum systems.

Research reveals how magnetic states affect conductance in MnBi2Te4 material.

How electron band occupation affects energy transfer in gold under laser light.

Kitaev materials reveal interesting magnetic behaviors through unique spin interactions.

Anyons are unique particles with special properties that impact quantum computing.

Exploring the unique properties of MATBG and correlated insulating states under magnetic fields.

Investigating Majorana zero modes and edge reconstruction in quantum materials.

Exploring how impact angles affect crater shapes and seismic waves in granular materials.

Research introduces a model for better understanding glass materials and their properties.

This research examines quantum entropies in topological states of BiSe nanowires.

Examining how quantum particles form coordinated groups similar to flocks of animals.

A look at the role of substatic manifolds in geometry and their impact on physics.

Innovative techniques improve simulation efficiency for complex materials under stress.

A new method improves material separation using multi-energy X-ray techniques.