Latest Articles for Material Science

This research explores how stress influences the transition from liquid to glass.

A look at how stress affects material damage and predictions.

This article examines how neutron radiation alters zirconium alloy properties critical for nuclear reactors.

Examining unique properties and behaviors of topological phases in materials.

Examining how laser light affects coherence in atomic gases.

Exploring the unique properties and applications of layered materials.

Exploring momentum behavior of particles at interfaces in quantum field theory.

Analyzing conservation laws influenced by hysteresis using the Play operator.

New findings show disorder increases Curie temperature in LaCrGe, defying expectations.

Study reveals how crystal shape impacts magnetism in CePdAl.

This study examines the unique Fermi surface properties of the material CoSi.

This study examines how thin layers affect heat transfer in materials.

Research highlights the effects of surface treatments on niobium superconductors' magnetic properties.

Exploring the significance of higher Berry curvature in understanding quantum materials.

A look into how materials react to temperature and stress.

Researchers identify T center-like defects in silicon for advanced quantum applications.

This article reviews the properties of the Cr2O3-Pt interface for future technologies.

Research highlights the effects of substrate and size on nanowire laser performance.

Exploring Marshak waves and their implications for energy transfer in materials.

A look at dispersivity's impact on porous materials and their applications.

A look into tackling bi-Laplace problems using modern numerical techniques.

Research on twisted bilayer BaTiO reveals unique electronic properties for advanced applications.

Researchers manipulate topological polaritons within optomechanical ladders for advanced applications.

This article examines how Fibonacci quasicrystals affect superconducting properties through the Josephson effect.

Researchers use magnetic fields to improve heat management in tiny devices.

Research reveals long-range order in two-dimensional systems despite traditional theories.

Research highlights the benefits of cobalt in sodium-ion battery performance.

Learn about the fascinating behaviors of active fluids and their applications.

A new method merges deep learning flexibility with physical law compliance.

Researchers unveil T-MoTe's potential in quantum computing through unique superconducting states.

Exploring how sound moves through ocean floor materials for research and communication.

A new method improves tensor network arrangements for better quantum state modeling.

Exploring the role of machine learning in predicting material behaviors and challenges faced.

New materials promise faster, efficient phase shifting devices for silicon photonics.

This article discusses the unique magnetic behavior of ErBeSiO.

Researchers develop techniques to steer active polar fluids for practical applications.

New silver precursor enhances electron beam writing for nanoscale structures.

A novel approach enables better modeling of long-range interactions in quantum systems.

Discover how piezoelectric actuation is shaping the future of integrated photonics.

This article looks at diatoms and the factors affecting their silica structures.