Latest Articles for Material Science

Introducing a straightforward method to determine fluid-crystal coexistence in simulations.

Analyzing how internal stresses affect the shape change of cylindrical materials.

Recent findings on MoTe challenge existing theories in condensed matter physics.

Research shows how light alters superconducting materials using metamaterials.

Study reveals how space weathering alters meteorite mineral structures.

A look into the fascinating characteristics of alkali superoxides and their behavior.

TaRhTe's unique layers alter its electronic behavior, promising advances in technology.

Skyrmions could transform magnetic devices for memory and processing.

MatFusion improves 3D material textures under various lighting conditions using a new model.

Research reveals new methods for achieving the Moore-Read state in twisted materials.

A look into cholesteric liquid crystals and the impact of defects on their behavior.

Research reveals key insights into metal-insulator transitions using cold atom systems.

A look at how DDFT studies particle behavior in non-equilibrium conditions.

Surfactants significantly influence the breakup process of liquid threads into droplets.

Examining how disorder affects superconductivity in quasi-one-dimensional materials.

Research focuses on improving electricity generation from light using lasers and advanced materials.

Exploring the role of symmetries in nonlinear systems and their implications.

Researchers enhance thermal state preparation using quantum Gibbs samplers for improved simulations.

Exploring the polarimetric PHASR Scanner's potential in medical and industrial fields.

New modeling techniques improve understanding of sound wave interactions with droplets.

Analyzing how noise affects topological orders and their potential in quantum technology.

This article examines how disks move through special fluids impacted by friction.

Examining unique properties and behaviors of supersolids in material science.

Exploring the role of NV centers in measuring material properties at the nanoscale.

Research focuses on topological insulators for advanced quantum technology applications.

Research reveals how structure impacts the properties of polymeric carbon nitrides.

Investigating spontaneous edge currents in unique superconducting materials.

Exploring a new state of matter combining superconductivity and magnetic excitations.

Research explores unique arrangements of dipolar atoms in multilayer setups.

New model sheds light on unique properties of twisted transition metal dichalcogenides.

Exploring HDG methods for wave simulation in elastic materials with varying properties.

Study reveals how dense gases behave in curved geometries.

Rheo-SINDy simplifies the process of deriving material behavior equations.

This study examines how transition metal doping alters TiS's magnetic and electronic properties.

Exploring interactions between bubbles and droplets in strongly coupled dusty plasma.

A study of magnetism using the Ising model on a unique lattice structure.

This article explores how free electrons interact with light for advanced applications.

A novel approach using Voronoi diagrams enhances cell simulation accuracy and efficiency.

An in-depth look at caloric functions in fractional heat equations.

This study reveals how hydrogels interact and respond under various pressure conditions.