Latest Articles for Material Science

Research reveals complex behaviors affecting superconductivity in twisted bilayer graphene.

Using machine learning to identify magnetic phases in complex materials.

Introducing the Reduced Projection Method for efficient quasiperiodic Schrödinger eigenvalue problems.

An in-depth look at polar nematic phases and their unique properties.

Exploring active matter and its role in movement and energy interactions.

New insights into bosonic edge modes could reshape technology in computing and information processing.

Quantum dots show promise in technology with focus on fine structure splitting.

A breakthrough method improves imaging of thick magnetic materials using soft X-ray technology.

Examining how circular dichroism affects electron scattering in hydrogen atoms.

Research reveals temperature management in Gd-based alloys enhances all-optical switching efficiency.

A fresh approach alters fluid interactions using external forces.

This piece explores non-Hermitian systems and the relationship between PT symmetry and phase transitions.

Explore how DFPT advances the study of phonons in materials.

This article explores the behavior of LSMO and YBCO in superlattices under various conditions.

Examining charge-density waves and their implications in transition metal dichalcogenides.

Examining the role of elastic dislocations in predicting natural disasters.

Exploring the intricate interactions between quantum and classical physics in ultrastrong coupling.

Researchers enhance measurement techniques in photonic lattices using innovative methods.

Research highlights properties of AlBN alloys for next-generation electronic devices.

Exploring how polarons impact energy transfer in various materials.

Discover the impact of organic electronics on health and environmental monitoring.

A new method for improving offline optimization in various fields.

New biradical design improves DNP for better sensitivity in NMR spectroscopy.

Research reveals CrC and MnC's potential in next-gen magnetic technology.

Research on NV centers in diamonds shows promise for better quantum control.

Examining the role of Rayleigh waves in earthquake effects and material response.

Investigating how magnetic fields affect particle movements between potential wells.

Research reveals new phases in a mixture of Dysprosium and Erbium atoms.

Room temperature findings in twisted bilayers show promise for future electronics.

This article examines fermion behavior in one-dimensional systems and the effects of filling levels.

Study reveals key interactions between alkali atoms and various materials.

New Zr IV atomic clock offers high precision for various applications.

A look into the quintic Hartree equation and its implications for many-particle systems.

Exploring the behavior of surface plasmon-polaritons in graphene with gain and loss.

Exploring the potential of polariton states in thin materials for technology.

Study reveals how voltage and defects affect trilayer graphene's electronic states.

A novel approach enhances accuracy in electron interaction energy calculations using the uniform electron gas model.

Study reveals unique magnetic behaviors in PbCo V O under various conditions.

Research on Rydberg atoms reveals methods to control energy transport dynamics.

Explore the behavior and implications of anisotropic elastic laminates in engineering.