Latest Articles for Material Science

Exploring the significance of trapped magnetic moments in type-II superconductors and their applications.

THz radiation shows promise in diverse fields like security and medicine.

New methods utilize neural networks to tackle complex time-fractional equations effectively.

Examining interface dynamics in quantum fluids reveals intriguing behaviors.

A deep look at how structure affects electron behavior in strontium ruthenate.

Thermal environments affect the topological properties of the SSH model in significant ways.

New models improve medical imaging accuracy through better light and sound interactions.

This study examines how U-shaped disks move in thick liquids.

This article explores how capillary droplets move through narrow spaces and their implications.

Research on twisted trilayer graphene reveals unique superconducting behaviors.

Research highlights the impact of oxygen vacancies on memristive device performance.

Researchers manipulate magnetization in GaMnN using electric fields for advanced electronics.

This article discusses methods to analyze square-triangle-rhombus tilings in higher dimensions.

Explore the unique properties and applications of auxetic membranes in various fields.

Exploring how quantum computing transforms material science and energy production.

Research reveals how DNA link styles affect curvature and material properties.

Study of how a polymer reacts when pushed through a small channel.

Research on fractional quantum spin Hall effect in novel materials reveals new electronic states.

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.