Latest Articles for Electronics

A new method enhances PCB inspection accuracy using multiple angles.

A look into the relationship between charge superconductivity and pair density waves.

Examining how magnetic fields and AC drives affect charge carriers in organic materials.

Research investigates behavior of topological systems under sudden changes.

Exploring how canted antiferromagnets create spin-triplet Cooper pairs in superconductors.

This article discusses reducing phase noise using synchronized SHNO chains for improved communication.

Hexagonal silicon and sodium silicon show promise as efficient superconductors.

Borophene shows potential for sensitive gas detection due to unique properties.

A study on the properties and potential applications of multiferroic materials.

Josephson diodes improve current flow direction in electronic devices, enhancing efficiency.

Examining how dielectric loss affects material performance in electronics and telecommunications.

Discover how Weyl semimetals interact with light in unique ways.

Research on Landau levels reveals insights into materials and quantum states.

Examining how magnetic moments influence and interact with electron systems.

Platinum diselenide shows promise in advancing terahertz applications for electronics.

Li MnO offers high performance and affordability for future batteries.

An overview of unique materials with special electronic properties and their applications.

Exploring the unique characteristics and potential applications of bilayer graphene.

Learn about Hall-plates, their characteristics, types, and uses in technology.

Recent findings reveal the connection between charge density waves and magnetism in FeGe.

Investigating exciton behavior in unique tin-based metal halides.

Exploring the significance of spintronics in advancing electronic device technology.

A study of how disorder affects electron movement in materials.

Research highlights unique electronic properties from hyperbolic tilings.

Research reveals how laser pulses affect valley polarization in graphene.

This article explores the superconducting diode effect and its significance in electronics.

Research highlights the significance of spin-momentum locking in modern technologies.

Examining quantum particle movement through lattice models and exceptional points.

New device leverages Fe Cr to control magnetic states with electricity at room temperature.

Discovering improvements in ferroelectric materials to enhance electronic devices.

Research on bilayer graphene reveals unique electronic properties governed by Haldane flux.

A look at the unique behaviors of graphene nanoribbons in electronics.

Examining how missing platinum affects the electronic behavior of GdPtSb.

Research reveals unique one-dimensional electronic properties in chain-doped TMDs.

New laser techniques simplify creation of fluorescent defects in silicon for quantum applications.

Recent findings challenge existing theories on electron effective mass and spin polarization.

Research on magnetic topological insulators reveals unique electron behaviors in Hall conductance.

Chiral molecules influence charge transport, affecting electronics and materials science.

Explore the Kubo formula and its impact on material conductivity.

A look into how spin-phonon interactions impact unique material properties.