Latest Articles for Electronics

Explore FeGe's intriguing structure and its competing physical phenomena.

A look at the strange behaviors of particles in topological insulators.

Researchers use neural networks for better modeling of complex nonstoichiometric materials.

Explore the unique properties of higher order topological semimetals and their potential applications.

Researchers study how relativistic electrons behave at barriers, drawing parallels to light.

Examining how temperature affects h-BN growth on Ir.

Recent findings reveal a new type of quantum anomalous Hall effect in materials.

Research explores bilayer CrI/WTe for efficient spintronic devices.

Topological insulators showcase intriguing electrical behaviors that impact future technology.

This study investigates how tiny particles behave in unique liquid crystal environments.

Scientists use pair photoemission to analyze electron behavior in materials.

ScClI shows distinct behaviors, making it significant in electronics.

Research on copper and vanadium's impact on insulators reveals new electronic states.

Researchers investigate triplet Cooper pairs for efficient data transfer in electronics.

Exploring the potential of line defects in graphene for new applications.

Investigating charge density waves in CsV Sb reveals unique phonon-electron interactions.

Exploring how Beltrami surfaces influence electron movement and energy states.

Research reveals how circularly polarized light impacts electron dynamics in materials.

New techniques allow for precise control of thermal emission using graphene.

Examining how electron states impact magnetic textures and future technology applications.

Recent research reveals novel properties of magnon-polaron states in two-dimensional materials.

A framework designed for efficient memristor circuit simulation and energy estimation.

New SpinFET concept utilizes Weyl semimetals for efficient electronic devices.

Research on gapped momentum systems reveals potential for advanced technologies.

Examining how electric current can change magnetization in advanced materials.

Researchers analyze bilayer nickelates for advancements in superconducting technology.

Researchers enhance graphene performance for quantum computing using carbon isotopes.

Researchers unravel challenges of quench in superconducting radio frequency cavities.

This article explores transition metal halides and their intriguing properties in honeycomb arrangements.

New technique enhances imaging of twist angles in layered materials.

Discover the intriguing topological features of carbon's various allotropes.

Researchers find ways to collect energy from heat using diodes and capacitors.

Researchers confirm unique band splitting in manganese telluride, revealing altermagnetic behavior.

A look at innovative electronic clocks using energy efficiency and precision in timekeeping.

Exploring the effects of electrical magnetochiral anisotropy in tellurium crystals.

Research measures electric fields in 6H-SiC using light and the Pockels effect.

Researchers develop a model to study ferromagnetism in two-dimensional materials.

Discover the unique properties and potential applications of Weyl-Kondo semimetals.

Study reveals methods for analyzing fast electron bunches using transition radiation.

Research reveals key factors influencing high-temperature superconductivity in La Ni O.