Latest Articles for Materials Science

This article discusses efficient techniques for solving Maxwell's equations in various media.

Researchers explore non-Abelian anyons and their implications in quantum computing.

Exploring the link between quantum entanglement and topological phases in materials.

A look at numerical computation and its applications in various fields.

Franckeite's unique layers offer promising uses in electronics and optics.

Study reveals how impurities alter edge states in topological materials.

Research shows how sound waves in gases can change laser technology.

TrustMol enhances molecular design by improving interpretability and reliability.

New datasets enhance predictions and understanding of nanomaterial properties using graph machine learning.

A new phase of matter shows unique behavior in layered materials.

Study reveals how memory influences outcomes in competitive events across various fields.

Study reveals how gravity affects droplet evaporation in liquid mixtures.

A study on classifying flexible quadrilateral meshes and their applications.

Discover how electrons and surface acoustic waves are reshaping quantum computing.

New imaging techniques enhance the study of rapid events across various fields.

Exploring Majorana fermions in topological superconductors for future quantum computing.

Exploring the impact of kagome lattices on quantum anomalous Hall effects.

Analyzing cyclobutanone's behavior under laser light to predict chemical transformations.

Examining how water density changes near surfaces that repel it.

Probabilistic neural networks offer deeper insights into uncertainty in scientific modeling.

Exploring the behavior of active particles in complex environments and their interactions.

Explore how the committor aids in understanding molecular reactions.

Researchers investigate electron interactions for potential dark matter detection.

New strategies enhance shift current in solar materials using virtual transitions.

Innovative cellulose films can sense pressure and humidity changes.

This article discusses improving the Bloch-Redfield equation for open quantum systems.

Research reveals key factors influencing magnetic properties in topological insulators.

Research on light and magnetic materials is opening new technological possibilities.

Using quantum algorithms to improve laminate design and stacking sequences.

Investigating self-propelling particles and their cluster behaviors.

New findings improve qubit speed and reliability in quantum computing.

Innovative methods improve simulations of fermionic behavior in complex systems.

Examining how oxygen influences titanium's strength and structure.

Research reveals how atomic movement influences electron emission in molecules.

Research highlights the unique benefits of superconductivity in atomically thin materials.

New metasurfaces that control light using electrical signals offer promising applications in optics.

Exploring unique states of free fermions in non-traditional environments.

Researchers advance room-temperature control of molecular spins for quantum technologies.

Investigating how twist angle affects spin-orbit coupling in graphene and NbSe materials.

Study of how materials change phases under external magnetic fields.