Latest Articles for Materials Science

Research sheds light on edge states and higher Hall conductivity in topological materials.

Examining how tilted light affects superconductors' plasma waves.

CeRhAs presents intriguing superconducting and magnetic phases affected by temperature and fields.

New hybrid systems using spin waves and skyrmions promise efficient computing.

New method simulates how tungsten pillars react to compression, aiding material design.

Research reveals how laser exposure alters carbonaceous asteroids' surface properties.

New methods allow precise control of chiral edge states in the Quantum Hall effect.

A look into how materials deform and strengthen at smaller scales.

Exploring photon blockade and its role in advanced optomechanical systems.

Discovering unique properties and potential applications of twisted bilayer graphene.

This article studies how holes move in two-dimensional spin systems under varying conditions.

Research explores how Laguerre-Gaussian electron packets scatter upon atomic collisions.

Analyzing the structural properties of amorphous NaOCl for energy storage applications.

An overview of hysterons, their interactions, and implications for materials science.

Research reveals key links between atom movements and electron behavior in CsSnBr.

New method reveals 3D crystal arrangements without damaging samples.

Researchers enhance silicon waveguides using picosecond laser technology for improved data transfer.

AI integration transforms scanning probe microscopy for improved measurements at room temperature.

Research reveals new insights into superconductivity and charge density waves in Cs(VTa)Sb.

Research reveals exciting features in Ta-CsVSb kagome superconductors.

A look into how disk arrangements affect physical systems.

A study on well-posedness and behavior of nonlinear diffusion equations.

Study reveals intricate energy states of tetracene post-UV excitation.

Explore how information theory enhances our knowledge of materials behavior.

A deep dive into electron weak localization and terahertz optical responses.

Research reveals new ways to connect distant quantum systems using cavity magnonics.

This article examines the optimal way to attach elastic plates to minimize energy.

New cathode material shows promise for sodium-ion batteries.

New methods improve organic electronic devices for better performance and cost.

Research reveals how synthetic ferrimagnets can influence electronics through new magnetic properties.

CaRuO exhibits Mott insulating behavior and intriguing magnetic properties.

Innovative materials exhibit unique behaviors based on applied forces.

A new approach combines machine learning and physical models for better molecular simulations.

Rippled graphene holds potential for advanced electronic applications and energy efficiency.

Researchers study time-varying structures to enhance light emissions.

A look into skyrmion stability influenced by size and radial stresses.

Research reveals unique temperature-related magnetic changes in CoZnMn materials.

Research delves into magnetization behavior in various dimensions and models.

Discover how X-ray grating interferometry enhances imaging in various fields.

An overview of the links between Navier-Stokes equations and quantum gases.