Latest Articles for Materials Science

Optical thermometry provides new ways to measure temperature in cryogenic environments.

A look at anyons and their implications in quantum physics.

This article examines the complexities of itinerant ferromagnetism in quantum gases.

This article discusses how edge roughness affects the performance of two-dimensional materials.

New cooling strategies enhance safety and performance of lithium-ion batteries in vehicles.

Examining how the upper critical field impacts superconductor behavior and applications.

Discover how granular materials remember their movements and the effects of shearing.

Research highlights Mn CuGe's potential in spintronics with unique magnetic behavior.

New designs in antennas enhance circular light control for quantum technology.

Examining flat bands and their role in improving superconductors.

MoTe's unique properties offer new possibilities in optics and electronics.

Study reveals insights into heat and electricity movement in 2D materials.

Exploring the behavior of semiflexible polymers and their applications in science.

Scientists are using light to move tiny particles in innovative ways.

New methods enhance understanding of electronic properties in materials.

Research highlights improvements in lithium argyrodite for safer, more efficient batteries.

Examining new encoding methods to enhance OOD data performance in materials science models.

Exploring the characteristics and potential applications of Ni-Mn-Ga alloys.

A look into the unique behaviors of active fluids and their applications.

Research on Fe GaTe reveals potential for efficient spintronic devices.

Research reveals efficient polarization switching in two-dimensional sliding ferroelectrics.

Research reveals fascinating interactions between excitons and phonons in layered materials.

A look into the complexities of neutron star matter and its equation of state.

STIRAP enhances precision in quantum sensing using nitrogen-vacancy centers in diamonds.

Research shows how mechanical strain alters graphene's electronic characteristics.

Research reveals complex magnetic properties of Ba MnBi and effects of charge doping.

Research reveals how thermal treatments affect YIG's Gilbert damping and potential applications in spintronics.

Nanomagnets mimic neuron functions to improve computing efficiency and adaptability.

Research reveals insights into quantum spin liquids through phonon dynamics in -Li IrO.

This article examines how two-magnon modes affect antiferromagnetic materials.

New deep learning method improves pore defect analysis in metal powders.

Explore how boundary criticality affects materials with unique properties.

Innovative backgate integration enhances germanium-based quantum devices.

Researchers are investigating ways to reduce light speed for better quantum technologies.

A look into the behavior of charged colloidal mixtures and their properties.

Research highlights unique magnetic properties of -RuBr and its potential applications.

RuI showcases fascinating magnetic properties as a potential Kitaev spin liquid.

Discover how optimization improves engineering design efficiency and material use.

New plasma boosters are set to improve X-ray free-electron lasers significantly.

A novel approach to predict the behavior of functional graded beams under various conditions.