Latest Articles for Material Science

Explore how droplets behave on surfaces and the factors influencing their spread.

Researchers inject silicon pellets to protect fusion reactor components from plasma damage.

Exploring interactions of quantum droplets with impurities reveals new physics.

An overview of the behavior and significance of CCAs in material science.

Research on magnetic topological insulators reveals unique electron behaviors in Hall conductance.

Examining how disorder changes high-harmonic generation in unique carbon structures.

Research reveals benefits of carbon clusters for quantum computing applications.

A new method enhances efficiency and accuracy in complex simulations.

Introducing a method that keeps values within desired limits for better numerical solutions.

Explore the unique properties and practical uses of plasma in science and technology.

Research improves understanding of fluid interactions in machinery with complex geometries.

Research introduces machine learning for ion concentration predictions in nanochannels.

This article examines creep in vitrimers and strategies to mitigate it.

Examining how light retains information from chiral materials.

Research reveals important insights into ion mobility of heavy elements in helium.

Researchers use light to simulate non-Abelian anyons for insights in quantum computing.

Research reveals how Brownian particles behave with changing pressures and temperatures.

New testing system improves material safety assessments for space missions.

Examining how materials separate and change over time using the long-range Ising model.

This article discusses a new formulation for accurately predicting pressurized crack behavior in materials.

Explore the connection between shapes and physical properties through topological invariants.

A look at neutron simulation software and its impact on research.

Research focuses on measuring coil inductance in superconductors at varying temperatures.

This article examines how rigid rotation affects thermodynamic properties in different systems.

Study reveals complex behavior of superconducting quantum dots under voltage.

New hybrid systems using nanoantennas enhance light emission from two-dimensional semiconductors.

A look into flatband systems and their fascinating properties.

Investigating the unique magnetic behavior of MnSbO through neutron scattering techniques.

This article examines how environmental shifts cause polymers to form helical structures.

Investigating the interaction of quantum dots and Majorana modes reveals new technology potentials.

This article explores how electromagnetic forces affect light in dielectrics.

Research on structural changes in materials reveals new possibilities for technology.

A study of particle flow influenced by a moving barrier and interactions.

This article looks at the role of dielectrics in searching for dark matter.

Examining how temperature and strain affect flexible materials' properties.

Topological superconductors may revolutionize technology, especially in quantum computing.

Study shows how colloidal particles influence chiral liquid crystals' alignment and properties.

A look at PNIPAM's unique properties and its uses in various fields.

Research reveals unique low-energy charge excitations in cuprate superconductors.

Research sheds light on the complex superconducting properties of strontium ruthenate.