Latest Articles for Materials Science

A new method enhances modeling of material phase changes.

Scrutiny on H3S challenges previous claims about its magnetic properties.

A new model improves predictions for metal 3D printing melt pool behavior.

A look at how the structure of amorphous graphene affects its electrical properties.

Researchers investigate long-lived modes in black holes and their implications for physics.

Discover how pressure affects excitonic insulators like Ta NiSe.

Exploring the unique behaviors of topological order in superconductors.

QM/MM combines quantum and molecular mechanics for better scientific insights.

Explore the effects of size and imperfections on topological materials.

Explore the fascinating world of superconductors and their electron interactions.

Discover how conformal defects influence physics and materials science.

Exploring a new era in computing with magnonic logic gates for faster processing.

Discover how solids can be hotter than liquids in granular materials.

Study reveals how air and vacuum affect thermal measurements.

Discover how tiny water droplets come together under electric fields.

Adding oxygen to thin films reduces leakage current and enhances performance.

Explore the unique properties of niobium diselenide and its superconductivity.

Scientists use algorithms to study how atoms change states, like liquid to ice.

Exploring the interactions between topological insulators and light through second harmonic generation.

Discover how electrons interact with light in semiconductors.

ZnO monolayers show potential for efficient hydrogen storage solutions.

A look into how light behaves in certain materials and its practical applications.

Learn how polymeric composites are essential in modern engineering.

Discover how silicon carbide is shaping the future of powerful electronics.

Shining THz lasers on tellurium alters its electrical properties dynamically.

Combining techniques for better accuracy in predicting mechanical properties of materials.

Investigating how light influences magnetism in various metals.

A look into the hidden aspects of superconductivity and the Higgs amplitude mode.

Discover how particles transition from being stuck to moving freely in messy environments.

CoNbSe reveals new spin behaviors with temperature effects and unique properties.

Researchers are improving predictions of materials' behavior through innovative machine learning techniques.

Exploring the intriguing properties of tilted non-Hermitian Dirac semimetals near quantum critical points.

A look into the electronic properties of SrIrO and its intriguing pseudogap.

Exploring the behaviors of superconductors and their interaction with magnetism.

Explore how layer interactions in cuprates enable high-temperature superconductivity.

Light creates spin photocurrent in two-dimensional materials, advancing technology.

A glimpse into the fascinating phase transition of dipolar gases.

Dive into the world of unique kagomé materials and their fascinating properties.

Researchers study chaotic quantum magnets to unlock secrets of physical systems.

A look into quantum annealing and its effects on materials like -CoV O.