Latest Articles for Electronics

This article explores the superconducting diode effect and its implications in technology.

Exploring helium matter waves' impact on nanophotonic designs through h-BN holes.

This article explores topological edge states and their role in materials properties.

New method efficiently forecasts electronic behaviors in two-dimensional materials with superlattices.

Research reveals new structures in twisted bilayer-trilayer graphene with unique electronic properties.

New methods improve magnetic imaging at the nanoscale.

Research combines free electrons and scatterers to enhance surface polariton excitation.

Researchers use FlowMM to predict and create new crystalline materials efficiently.

Researchers study charge movement in organic semiconductors for better thermoelectric materials.

This article examines heat movement in nanowires and its implications.

Study of electron interactions in double quantum dots and their potential applications.

A new tool improves speed and accuracy in analog circuit design.

Discover how CPD could change the future of electronic devices.

A compact laser system using TFLN shows great performance and stability.

A new method improves charge transport simulations in organic semiconductors, aiding device design.

Research highlights the effects of Joule heating on materials under AC currents.

Discover the mechanical and magnetic properties of carbon nanoconductors.

Research reveals how acoustic waves affect valley states in quantum materials.

Research uncovers how strain and substrate influence second harmonic generation in MoSe monolayers.

Research on spin currents in superconductors and ferromagnets shows promise for efficient information transfer.

A study on the electronic properties and potential applications of NiPS₃.

New techniques in magnetism could improve data storage and processing efficiency.

Research reveals key behaviors of twisted bilayer WSe related to superconductivity and insulation.

Researchers propose interaction annealing to improve understanding of complex materials like WTe.

Research reveals key phonon contributions to superconductivity in twisted bilayer graphene.

Discover how topological insulators are transforming electronic devices with spintronics.

Explore the potential of magnetic torons in future electronic applications.

Insights into how heat moves through thin films, enhancing electronic devices.

Study reveals new insights into electron dynamics in graphene using advanced imaging.

Exploring the potential of rhombohedral trilayer graphene in advanced technologies.

Researchers study unique material states that alter electronic properties.

New findings reveal strong light properties of chiral carbon nanotubes.

Study shows how layer thickness affects selenium vacancies in two-dimensional semiconductors.

Research reveals effects of magnetic materials on topological insulators for electronics.

Examining how chiral materials interact with magnetic fields to create unique electrical properties.

Discover how wrinkles in graphene affect its properties and applications.

Study highlights unique behaviors of Fe GeTe in magnetic states and electron interactions.

Exploring how packing density affects electrical conduction in quantum dot materials.

DyTe's tellurium vacancies influence its electrical behavior and potential in electronics.

Examining bound states and mobility in quantum wells enhances quantum computing understanding.