Latest Articles for Electronics

A new TWT design improves signal amplification in satellite and radar applications.

Researchers unveil how electrons interact in thin materials via cyclotron resonance.

Exploring the unique properties of twisted bilayer graphene at a 30-degree angle.

A new framework enhances PCB quality control through automated defect detection methods.

Research shows how D2O affects the properties of chromonic liquid crystals.

Exploring the fascinating properties of altermagnets and their Hall effects.

VCl monolayers reveal unique magnetic and orbital properties important for advanced applications.

VQCrystal improves the search for stable crystal structures in material science.

Research reveals potential of altermagnets in enhancing spintronic devices.

Research reveals impressive thermal conductivity of monolayer beryllene, surpassing bulk materials.

This article discusses how electrons can localize in zero flux situations.

Research shows magnetic fields enhance the stability of quantum electron solids.

HfZrO films show promise in electronics due to their unique properties.

Research reveals how moving electrons affect light interaction in graphene.

Explore how light affects charge-transfer insulators using advanced X-ray absorption techniques.

Research reveals methods to control charged localized excitons with strain tuning in two-dimensional materials.

A look into hidden singularities and their effects on superconductors.

Study reveals structural shifts in STO microcrystals at low temperatures.

A look at how charge susceptibility affects Mott insulators and their properties.

Researchers study Mott insulators using advanced wavefunction techniques for better understanding.

This article explores the behavior of charge density waves in 1T-ZrSe.

Exploring the potential of silicon nanowires in technology and their behavior at low temperatures.

Research reveals new insights into ferroelectric properties in transition metal dichalcogenides.

Research on using terahertz radiation for fast electron pulses shows promising results.

Exploring how ferrimagnetic Weyl semimetals control electron spins for future technology.

Research highlights the role of quantum geometry in electron interactions.

Research reveals how electric fields change properties of titanium dioxide.

Research uncovers robust behaviors at exceptional points in quantum systems.

Discover how light influences magnetization in Rydberg atoms and doped semiconductors.

Cobalt monosilicide exhibits unique electrical and thermal behaviors influenced by its structure.

Research reveals electronic properties of twisted MoSe2 and WSe2 lattices.

Researchers have developed a new positron beam setup for material studies.

Scientists use machine learning to optimize material synthesis and improve efficiency.

Altermagnets offer insights into spintronics through unique conductivity and N eel vector properties.

New methods reveal how to optimize silicon carbide structures for electronics.

Exploring the significance of charge transfer energy in specific correlated materials.

Examining how defects in talcum can influence its use in advanced technologies.

Bilayer graphene shows promise for valleytronics, enabling new electronic technologies.

This study examines how nanostructured silica reacts to ionizing radiation.

Exploring the potential of ferroelectric nematic liquid crystals in technology.