Latest Articles for Electronics

3D-ICs stack layers for better performance and efficiency.

Research reveals how temperature affects spin qubit frequencies and performance.

Research reveals rapid magnetization switching in antiferromagnet/ferromagnet systems using terahertz pulses.

Exploring the effects of material curvature on electron behavior.

Skyrmions in liquid crystals could lead to new technologies in electronics and display systems.

Exploring the unique electronic behavior of four-layer graphene on hexagonal boron nitride.

Researchers study charge exchange between materials during contact electrification.

Study reveals how polarization behaves during topological phase changes in two-dimensional systems.

Researchers study how magnetic fields affect the conductivity of unique semiconductor materials.

Magnetic skyrmions show promise for advanced data storage and processing technologies.

A technique that enhances the transfer of thin films for advanced optical devices.

Researchers examine skyrmions in ferrimagnetic materials for innovative data storage solutions.

Phosphorene chains offer unique properties for future electronic applications.

Investigating how strain influences electronic properties and the AHE in FGT.

A deeper look into quantum oscillations and their implications for modern materials.

Twisted bilayer graphene shows unique electronic states based on twist angle and interaction strength.

This article examines the creation and properties of NbAs thin films.

This article discusses how light can change crystal arrangements and their properties.

New techniques promise accurate predictions of electronic properties in solid materials.

Research highlights unique characteristics of Ba ScRuO for technology applications.

Research on artificial honeycomb spin ice reveals new magnetic charge behaviors.

Exploring the impact of grain boundaries on electronic properties of topological insulators.

Research into Indium Bismuth reveals potential for innovative electronic applications.

GdRu2Si2 exhibits unique magnetic structures with potential applications in electronics.

Examining how structural changes affect superconducting properties in kagome materials.

Research on multilayer metamaterials opens new doors for data storage and processing.

Edge states facilitate current flow, revealing insights into advanced electronic materials.

Investigating how plasmonics and 2D materials can transform technology.

Study reveals how nickel impurities affect NiBi nanowires' electrical properties.

Exploring edge ferromagnetism in triangular-graphene quantum dots and rings.

Research on electron behavior in 2D materials reveals new potential applications.

Exploring complex polarization textures and their technological implications in materials science.

New insights into exciton behavior in Mott insulators could transform material properties.

This article explores how laser characteristics influence electron acceleration in plasma.

Exploring magnetic behavior in moiré materials through electron movement.

New studies reveal the impact of two-phonon scattering in barium arsenide semiconductors.

Helical trilayer graphene shows potential for unique electronic behaviors and states of matter.

Research on dice lattices reveals unique electronic and magnetic properties.

A look into a new magnetic behavior that blends ferromagnetic and antiferromagnetic features.

Research unveils critical insights into charge density waves and electronic properties of VTe.