Latest Articles for Material Science

Scientists utilize quantum machine learning to simulate molecular behaviors accurately and efficiently.

Examining localisation phenomena in quasiperiodic systems through the IAAF model.

ALPS streamlines the design of photonic surfaces using machine learning.

Introducing eMBEX, a method for studying interactions in materials more accurately.

Researchers enhance wood quality through automated defect detection methods.

Research on dimer models reveals complex atomic pairings on various surfaces.

Additive manufacturing improves atomic vapour cell design for quantum applications.

New machine learning method improves efficiency of Koopmans spectral functional calculations.

A dataset to improve AI's ability to read advanced scientific materials.

New strategies improve the design and functionality of metamaterials.

A novel approach to analyze dislocation networks under stress conditions.

The Completely Multipolar Model offers improved insights into water's molecular behavior.

A look into the history and properties of glass and solids.

Investigating dark count rate and degradation in Single-Photon Avalanche Diodes.

This article examines how temperature impacts magnetic properties in quasi-2D triangular antiferromagnets.

A look into murunskite's intriguing magnetic properties and its structural significance.

Research reveals complex electron transfer behaviors in optical cavity environments.

Researchers study unique phase transitions in complex materials with potential technological applications.

This study examines hole behavior in honeycomb lattices using the t-J model.

New method produces coherent THz radiation through diamond NV centers.

Exploring local changes in quantum systems and their impact on energy spectra.

Researchers investigate how tiny materials handle friction and contamination.

Studying how computational model size affects inorganic mixed-halide perovskite alloys.

Study reveals how active colloids mimic glassy materials under certain conditions.

A closer look at the unique magnetic properties of CoNb2O6.

New method efficiently forecasts electronic behaviors in two-dimensional materials with superlattices.

This study reveals new phases in higher-order topological insulators through quasiperiodic modulation.

New methods improve long-range predictions in materials science using machine learning.

Exploring the dynamics and challenges of crystallization through nucleation.

Researchers study charge movement in organic semiconductors for better thermoelectric materials.

Using quantum technology to improve materials against corrosion.

Acoustic levitation lifts objects using sound waves, with key applications in science.

Study of Rydberg excitons' behavior under microwave influences in cuprous oxide.

Research explores how strain affects magnetic monopoles in classical spin ice.

A guide to enhancing atomic pair distribution function analysis using laboratory x-ray data.

Research on Schottky diodes and pn junctions for high-energy physics.

This article examines heat movement in nanowires and its implications.

Study reveals phonon dynamics in disordered Kitaev spin liquids with temperature effects.

A closer look at P3HT's role in electronic devices and its molecular dynamics.

Research on how special particles stack and stay stable without glue.