Latest Articles for Electronics

Machine learning improves predictions of band gaps, enhancing material electronic property insights.

Research showcases how skyrmions enhance magnetic field sensing technology.

Exploring the link between magnetization and edge currents in materials.

A novel setup improves testing of quantum devices in cold conditions.

Graphene's unique electronic states offer new insights into material science and electronics.

Researchers study spin arrangements for advanced electronic applications.

Research highlights YAlO's behavior across various light frequencies for future tech applications.

A look at topological insulators and their potential impact on technology.

Examining how chaotic electron paths affect metal conductivity under magnetic fields.

Exploring how external fields affect electron behavior in quantum dots.

A look into silicon quantum dots and their role in quantum computing.

Research reveals how MoS2 alters silicon's behavior under heat and stress.

Exploring the fascinating process of quantum tunneling and its implications.

Researchers are studying antiferromagnets to improve electronic devices.

Exploring the role of skyrmions in memory storage advancements.

Exploring the magnetic properties of MnPSSe for future spintronic applications.

Research on excitons in AlGaAs/AlAs quantum wells sheds light on their behavior.

Researchers enhance material properties through precise light control of phases.

Learn about Dirac fermions and their role in new electronic devices.

Investigation into the properties and applications of transition metal dichalcogenides.

New active antennas enhance military communication through improved signal transmission and efficiency.

A novel approach cuts qubit use while maintaining accuracy in molecular simulations.

New methods identify and measure spin flow in materials like tungsten and platinum.

Researchers explore spin transport in lanthanum-substituted BiFeO for future computing.

Examining the complexities of quantum magnetic oscillations and their unexpected behaviors.

This article explores the unique electronic features of tetralayer graphene through advanced techniques.

An overview of Kagome materials and their fascinating properties.

Exploring the challenges and innovations in halide perovskite production for solar applications.

Researchers reveal novel phases in Chern insulators through circularly polarized light.

Study of how magnons behave in graphene junctions reveals new electronic properties.

This article explores the unique properties and applications of graphdiyne-based materials.

Learn how particles pass through barriers in quantum physics.

Researching orbital angular momentum's impact on advanced electronic devices.

Research reveals new insights on superconducting diodes using Josephson junctions for efficient current management.

Examining how tilted light affects superconductors' plasma waves.

A look into how Eliashberg theory explains electron-phonon interactions and superconductivity.

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

Discovering unique properties and potential applications of twisted bilayer graphene.

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

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