Latest Articles for Electronics

Examining nonlinear behaviors in three-dimensional materials under magnetic influence.

This article discusses a new method for analyzing digital circuits using hybrid models.

Research on nanoparticles enhances technology across various fields like medicine and electronics.

New tools improve study of point defects in materials for better technology.

A look into the distinct behaviors of Anomalous Hall Crystals in rhombohedral multilayer graphene.

Discover the unique properties and potential applications of double-double perovskite oxides.

New NbN probes improve thermal measurement accuracy at nanoscale.

Discover the unique properties and applications of stretchable hydrogels.

Study reveals how thickness affects hyperuniform properties in vortex matter.

Exploring unique properties of minimal fractional topological insulators and their potential applications.

Exploring the benefits and challenges of RSFQ systems in modern electronics.

Exploring the unique properties of coexistence topological semimetals for thermoelectric applications.

Researchers study spin dynamics in quantum dot spin valves for improved electronics.

Exploring the unique properties of ZnO for various technological applications.

Exploring the behavior and applications of liquid crystals in technology.

New insights into bilayer graphene's electronic and optical properties reveal exciting applications.

Phosphorene nanoribbons show promise in electronic applications due to unique properties.

Exploring how low-energy electrons interact with light at the atomic level.

Efficient electrical interfaces are key to scaling quantum computers using color centers in diamond.

This article examines how defects affect the performance of ferroelectric materials.

A look into how heat transfers between small objects.

Exploring the impact of quantum dots on electronics and photonics.

Recent findings on MoTe challenge existing theories in condensed matter physics.

Study reveals how niobium film properties influence microwave losses in superconducting circuits.

New technique measures atomic arrangement in thin films using standard lab x-ray sources.

Research highlights the dielectric properties of amorphous Boron Nitride for electronics.

Skyrmions could transform magnetic devices for memory and processing.

Exploring the interplay between free electrons and light for future technologies.

A new open-source method speeds up routing tasks for modern FPGAs.

Exploring the role of NV centers in measuring material properties at the nanoscale.

Research focuses on topological insulators for advanced quantum technology applications.

Research highlights fast switching and low energy use of VO memristors.

Learn how skyrmions could change the future of electronic devices.

A look at the FitzHugh-Nagumo model and its relevance in various fields.

New model sheds light on unique properties of twisted transition metal dichalcogenides.

This article explores how free electrons interact with light for advanced applications.

Researchers examine lithium niobate tantalate's unique properties and potential applications.

Research reveals effects of spin-orbit coupling in two-dimensional materials for electronics.

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

Research showcases how skyrmions enhance magnetic field sensing technology.