Latest Articles for Material Science

An analysis of Gaussian wave packet behavior across various potential fields and methods.

Scientists leverage machine learning to optimize Kitaev chains for Majorana state discovery.

A look into knot invariants and their properties.

NbN thin films show promise in electronics and optical technologies due to their unique properties.

This article examines how filament cross-section shapes affect their packing arrangements.

Examining the unique properties and implications of mixed-state topological orders.

Research reveals methods to control phase transitions in SbS materials using lasers.

Scientists study fractonic matter using Rydberg atoms to explore unique phase transitions.

Research on HgTe reveals unique electron interactions and their effects on conductivity.

Discover how sliding layers of atoms influence electrical properties.

Exploring local conservation of angular momentum in light-matter interactions.

Exploring how temperature affects signal clarity in two-dimensional electronic spectroscopy.

New methods improve heat management in various technologies.

Research reveals key properties of Phobos and its simulants for future exploration.

Exploring Andreev levels and their significance in superconductivity and quantum systems.

A new method improves thin film production efficiency in electronics and optics.

VGa exhibits interesting superconducting properties at low temperatures and under varying conditions.

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.