Latest Articles for Material Science

Improving quantum computing efficiency through optimized spin qubits in silicon-germanium materials.

Research on 2D magnets reveals insights into magnetic quantum impurities and their effects.

A look into how quantum spin systems behave under various conditions.

Explore how symmetry shapes the behavior of materials and their unique properties.

Altermagnets show promise for spintronics through unique magnon behaviors and temperature effects.

Scientists use metasurfaces to efficiently control exciton behavior with light.

Examining the magnetic ground state of monolayer CeI provides insights for future applications.

Research reveals promising 2D ferroelectric materials for future electronics.

Exploring how deformable porous media interact with fluids in various conditions.

This study presents a new model for yield stress fluids, improving understanding and applications.

Explore the fascinating world of optical singularities and their potential uses.

Researchers reveal unique behaviors of non-Hermitian systems and their complex energy states.

Exploring the fascinating behavior of topological insulators and their connection to fermions.

A fresh approach to understanding how small defects impact material properties.

Study reveals how electric fields change material properties in quasicrystals and quantum Hall effect systems.

Research reveals carbon-enriched LGADs outperform standard sensors under radiation exposure.

CdSe nanoplatelets offer exciting optical properties for various applications in technology.

Exploring the optimized effective potential method for accurate force calculations in materials.

Explore the fascinating behavior of liquid drops in various fluid environments.

This article examines superdiffusion and its scaling behaviors in various physical systems.

Exploring the role of DMC in studying 2D materials.

Enhanced accuracy in simulating thin engineering structures like shells and beams.

A new method for creating high-performance, flexible electronic devices using advanced materials.

This article focuses on wave behavior near corners with thin layers.

New methods for valleytronics using graphene and TMD materials show promise for future computing.

Surfactants significantly influence droplet formation in inkjet printing technology.

A look into the phases and properties of a unique magnetic structure.

A study of tensor networks in hyperbolic space to analyze quantum states and phase transitions.

This article examines how mosaic crystals affect X-ray measurements in high-energy systems.

A look at how sensing tiny heat changes enhances scientific research.

Research reveals how varying pore sizes affect fluid movement in materials.

This study explores spin behavior in Kagome lattices affected by magnetic fields.

Examining how waves behave under unique instabilities and their implications.

This article discusses conformal defects and their implications in theoretical physics.

Study reveals how disks behave near walls in active nematic fluids.

A new method uses neural networks to find self-similarity directly from data.

Examining the Kibble-Zurek mechanism and defect formation in superfluid phase transitions.

Learn how charged monomers combine to form larger clusters and their significance.

Learn how to minimize cold joints in concrete structures for better durability.

This study reveals advanced modeling techniques for NV centers in diamond.