Latest Articles for Material Science

This article examines how Fibonacci quasicrystals affect superconducting properties through the Josephson effect.

Researchers use magnetic fields to improve heat management in tiny devices.

Research reveals long-range order in two-dimensional systems despite traditional theories.

Research highlights the benefits of cobalt in sodium-ion battery performance.

Learn about the fascinating behaviors of active fluids and their applications.

A new method merges deep learning flexibility with physical law compliance.

Researchers unveil T-MoTe's potential in quantum computing through unique superconducting states.

Exploring how sound moves through ocean floor materials for research and communication.

A new method improves tensor network arrangements for better quantum state modeling.

Exploring the role of machine learning in predicting material behaviors and challenges faced.

New materials promise faster, efficient phase shifting devices for silicon photonics.

This article discusses the unique magnetic behavior of ErBeSiO.

Researchers develop techniques to steer active polar fluids for practical applications.

New silver precursor enhances electron beam writing for nanoscale structures.

A novel approach enables better modeling of long-range interactions in quantum systems.

Discover how piezoelectric actuation is shaping the future of integrated photonics.

This article looks at diatoms and the factors affecting their silica structures.

Learn about Bingham fluids and their impact on various industries.

Research explores electronic behaviors in twisted bilayer MoTe, revealing new quantum states.

New designs inspired by nature using VoroTO enhance material performance efficiently.

Researching complex behaviors in two-band superconductors reveals new insights into phase slips.

Studying excitons in twisted hBN reveals new light-emitting properties.

Exploring the unique properties of graphene wormholes and their effects on electron dynamics.

Studying crawling motion helps improve robots and medical treatments.

A new method effectively simulates elastic objects across various representations.

Researchers are using quantum algorithms to study electron behaviors in complex materials.

Exploring heat conduction models and the implications of the Guyer-Krumhansl equation.

A look at how points distribute and relate in various fields.

A look into feature characterization methods for understanding surface performance.

This article examines equilibrium measures of particles influenced by radial external fields.

Research reveals how strong interactions affect particle behavior in ultracold atomic systems.

Research reveals unique properties of twisted bilayer MoTe materials.

Innovative techniques improve accuracy in material analysis through electron energy loss spectroscopy.

Researchers are developing new materials to safely contain nuclear waste using advanced technology.

Study reveals impact of impurities on thermal Hall effect in Weyl superconductors.

A look into the importance and challenges of coupled cluster theory in chemistry.

A new method enhances the efficiency of solving the Kohn-Sham equation.

New studies challenge the magnetic behavior of RuO2, suggesting it lacks long-range order.

A new approach improves energy minimization in molecular studies.

Researchers investigate exciton condensates in double-bilayer graphene under varying conditions.