Latest Articles for Electronics

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

AnalogCoder makes analog circuit design easier and more accessible for everyone.

Research reveals unique behaviors in heterostructures formed from layered materials with different structures.

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

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

FePc materials showcase unique magnetic behaviors with potential electronic applications.

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

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

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

Doping strontium ruthenate with chromium raises its Curie temperature, changing its properties.

New theory sheds light on OECT hysteresis and its applications.

Studying defects in materials can lead to improved performance in various applications.

Researchers manipulate electron spins in quantum dots to improve quantum computing technologies.

This study focuses on developing models for topological insulator materials.

Researchers improve resonator efficiency with single-crystal silicon carbide, reducing energy loss.

Study reveals unique magnetic behaviors in chromium trihalides, impacting future technology.

Discover the potential of waved-brim flat-top hat bands in advanced electronics.

A new approach reveals how disorder affects topological materials.

Examining how electric and magnetic waveguides affect electron behavior in graphene.

Exploring the interplay of magnetic topological insulators and superconductors for future technology.

Amorphous materials offer unique properties for advancements in optics and electronics.

Researchers develop a device to study edge magnetoplasmon waves and anyonic properties.

Discover how superwires guide electrons and their potential in technology.

Examining the role of charge dynamics in enhancing quantum dot performance.

Researchers study plasmonic crystals for advanced sensing and electronic applications.

Modular spin-circuits merge physics and technology for advanced computing solutions.

Exploring the potential of quantum memristors in artificial neurons for advanced computing.

Study reveals how atom positions in FeCo alloys affect magnetic energy dissipation.

Research on HgTe reveals unique electron interactions and their effects on conductivity.

Researchers reveal the significance of p-type and n-type interfaces in nickelate superconductors.

Discover how sliding layers of atoms influence electrical properties.

Research on germanium-based quantum dots enhances quantum computing capabilities.

A new method improves thin film production efficiency in electronics and optics.

A novel framework optimizes pulse generation for better quantum circuit performance.

Research reveals new findings on spin currents in ferromagnetic films.

Examining the electrical properties of topological insulator nanowires under magnetic fields.

Researchers enhance memristors' performance using innovative light analysis techniques.

Exploring the unique properties and applications of layered materials.

Study reveals insights into materials with inclusions affecting heat and electricity flow.

This article reviews the properties of the Cr2O3-Pt interface for future technologies.