Latest Articles for Material Science

Examining how spins and electronic structures influence magnetism in materials.

New methods in quantum chemistry leverage algebraic geometry for solving complex equations.

Study reveals TmAg's behavior under low temperatures and strain effects.

A deep dive into how surface roughness affects liquid behavior.

Researchers are improving materials through mechanical regularization techniques.

Research shows electric fields can create a new state of water called ferroelectric glassy water.

A look into the properties and behavior of cuprate superconductors.

This article discusses how two particles interact and move under external forces.

Examining the effectiveness and limitations of generative models in material creation.

Explore the unique properties of higher order topological semimetals and their potential applications.

Research reveals unique behaviors and properties of fracton quantum gas.

An exploration of how material and shape affect wire behavior under stress.

QERaman enhances Raman spectroscopy analysis for material research.

Examining how impurities change spin behavior across long chains.

New insights into temperature behavior at moving liquid contact lines.

Research highlights the challenges of excitons in thin hBN films and their light-emitting potential.

New methods improve understanding of ion interactions in simulations.

This research examines polariton condensates and their behavior in magnetic fields.

This article examines how active forces lead to the crumpling of thin spherical shells.

Research reveals complex behaviors in superconducting systems through the Kitaev model.

Scientists study unique supersolids combining solid and superfluid properties using dipolar condensates.

Researchers develop a method to control excitons using electric fields in two-dimensional materials.

Exploring energy changes and friction in twisted graphene material layers.

Exploring new models for achieving room-temperature superconductors.

Topological insulators showcase intriguing electrical behaviors that impact future technology.

Research unveils crucial factors affecting Oldroyd-B fluid stability in various processes.

A new approach improves predictions for flexible structures in fluid flows.

Study explores how waves interact with materials packed with particles.

A look into configurations and excitations in the 3D Toric Code.

ScClI shows distinct behaviors, making it significant in electronics.

Research on copper and vanadium's impact on insulators reveals new electronic states.

This study examines chiral changes in the quantum Ashkin-Teller model and their effects on phase transitions.

Exploring the potential of line defects in graphene for new applications.

Investigating charge density waves in CsV Sb reveals unique phonon-electron interactions.

A software package for studying materials' electronic structures through simulations.

Exploring the effects of geometry in Josephson junctions and their complex behaviors.

A novel approach improves Bayesian optimization efficiency and reduces computation time significantly.

Research reveals how temperature changes affect liquid spreading patterns.

New materials enhance vehicle visibility for better radar detection.

Explore the unique features of spin liquids in non-periodic quasicrystalline structures.