Latest Articles for Material Science

Exploring the design and noise characteristics of SQUID arrays in magnetic sensing.

Exploring superconductivity in triangular lattices using the Hubbard model reveals new states and properties.

Exploring the interplay of superconductivity and nanowires for future technologies.

Researchers develop a simplified way to create polarized attosecond pulses using mixed gases.

Learn how materials respond to forces through elasticity and finite element analysis.

Research enhances accuracy of material characterization using open-ended coaxial probes.

Iron oxide clusters show potential as catalysts for efficient hydrogen production from ammonia.

This article explores how electron-phonon interactions affect metal stability under varying conditions.

New machine learning techniques improve XAS data interpretation and accessibility.

cMBDF offers efficient and accurate modeling for chemical properties with reduced data needs.

Exploring unique light behaviors in photonic crystals and their applications.

An exploration of negative thermodynamic pressure and its implications.

This article examines how ring polymer shape affects their movement in solutions.

This article explores the dynamics of particle interactions through coagulation and fragmentation.

An overview of how quantum droplets form in Bose-Einstein condensates.

Researchers develop AutoOSS to enhance manipulation of molecules at the nanoscale using AI.

Researchers uncover novel patterns in quantum oscillations affecting material behavior.

Defects in photonic crystals can boost light efficiency and enhance technology.

Explore the unique properties and potential applications of surface exciton polaritons.

Twisted bilayer graphene shows unique properties that could transform material science.

Discover the unique world of Lee-Wick electrodynamics and its implications.

Research explores ultrafast laser pulses on metals and superconductors.

Discover the latest findings on bilayer nickelates and their superconducting properties.

A study on soap films influenced by electrostatic forces and their stability.

New sensors made from MoS2 show promise in detecting harmful NO2 gas.

Exploring how grain boundaries affect corrosion in metal alloys.

Explore numerical methods for solving the Hunter-Saxton equation and their accuracy.

Active particles can transform thick liquids into flowing ones through motion.

A look at how the Potts model explains complex phase transitions in materials.

Exploring liquid metal as a potential solution for fusion reactor walls.

Exploring how germanium is vital for advancements in quantum information transfer.

Research reveals stable surfaces of CsPbI to enhance solar cell efficiency.

Discover how new tools improve HRTEM image analysis for materials research.

Discover the complex process behind designing safe and efficient airplane wings.

UTe shows fascinating properties that could impact future technology.

Exploring the potential of NaEu(IO3)4 in quantum technologies.

Research into phase transitions reveals complexities in frustrated magnetic systems.

Investigating how adatoms influence superconducting states and magnetic properties.

Scientists develop new methods to detect small metallic particles with enhanced light scattering.

Scientists use nano-diamonds to study gravity at a quantum level.