Latest Articles for Material Science

Explore the significance and applications of multivariate functional data analysis.

Machine learning improves material prediction accuracy and efficiency.

This article examines how disorder affects material strength and failure mechanisms.

Recent advances improve the measurement of light's electric fields and their properties.

Discover how bipolar thermoelectric devices convert heat into electricity efficiently.

A study on stick-slip dynamics in granular materials with varied grain shapes.

New methods improve accuracy of radiation damage measurement in materials.

Explore how past experiences shape the behavior of non-equilibrium systems.

New hybrid silicon nitride waveguides enhance Brillouin gain for advanced telecommunications.

SiV centers in diamond show promise for advanced quantum technologies.

Learn how nanoscale engineering enhances thin film properties for advanced applications.

Study reveals how ion bombardment alters magnetic behavior in manganese arsenide.

Study reveals complex behaviors in transition metal dichalcogenides and charge density waves.

Introducing a model to better simulate behaviors of dense particle mixtures.

New research supports existence of charge density waves in infinite-layer nickelates.

This article explores how collagen responds to repeated loading and the role of cross-links.

New tools improve our ability to study heat at small scales.

Research reveals complex low-energy states in fermionic Hamiltonians, challenging current quantum theories.

Examining how water-glycerol mixtures behave on surfaces and their practical applications.

QND measurements offer precision in quantum state assessment and support advanced computing.

Explore how emergent inductors may shape future technologies.

Exploring the liquid and solid phases of multilayer graphene in magnetic fields.

Study reveals unique electronic states in bilayer graphene domain walls.

This article examines the pseudogap phenomenon in two-dimensional materials.

Research shows how substrate choice and MBL affect polymer conductivity.

Discover the intricate behavior of dense emulsions and their practical benefits.

Electron ptychography enables detailed imaging of atomic structures and interactions.

Research reveals unique superconducting behaviors in aluminum and gold structures.

A new model simplifies predicting elasticity tensors for various materials.

Exploring how tiny particles influence larger systems through quantum jamming.

This article discusses how counter-rotating interactions affect molecule-light behavior.

Study of furanone reactions using light interaction analysis.

Learn how exceptional points influence light behavior in optical dimers.

This study highlights how angular momentum influences light-matter interactions in chiral cavities.

Investigating how light affects molecular behavior in optical cavities.

New nanoscale mixers enhance optical signal processing capabilities at petahertz frequencies.

This article discusses how molten glass flows and its significance in manufacturing.

Exploring methods for effective wave manipulation in various applications.

A novel superconductor found in La Ni O shows potential for high temperature conductivity.

Researchers investigate high-pressure superconductors for practical applications in energy.