Latest Articles for Electronics

Study reveals how materials affect terahertz emitter performance for various applications.

Recent findings reveal how light affects supercurrents in superconductors.

Research on Fe GeTe reveals potential for efficient, non-volatile memory devices.

Research reveals unique properties of Dirac nodal line semimetals for sound applications.

NBT shows promise with unique electronic, magnetic, and optical properties for diverse applications.

This paper discusses detecting chirality in twisted bilayer graphene through experimental methods.

Research highlights electron behavior in gapped graphene with laser and magnetic fields.

Examining the effects of electron-magnon interactions in bilayer systems.

Research reveals unique behaviors of electrons in 2D systems at oxide interfaces.

SmartonAI makes PCB design easier with AI-powered assistance and intuitive features.

Research reveals complex interactions in zigzag graphene nanoribbons affecting electronic states.

Research improves understanding of polaritons for better light and electronic device performance.

Research reveals new ways to control magnetization in advanced materials.

New findings on SB-FETs using 2D materials for better electronics.

Research reveals key properties of nickel superconductors under pressure and temperature changes.

A look at the future of wireless energy transfer and its efficiency challenges.

A deep dive into electron behaviors in single-walled carbon nanotubes and their implications.

Exploring the effects of doping on HfS2's electronic properties.

Research on QPCs reveals insights into electron behavior and conductance plateaus.

Bilayer graphene shows promise for generating currents from light with applied voltage.

Research uncovers how ultrathin films interact through the Casimir effect.

Diamond defects offer exciting potential in quantum advancements.

Research reveals new methods for measuring magnetization in ferrimagnetic half-metals.

E-graphs simplify verification processes for datapath circuits, enhancing efficiency and accuracy.

Investigating the unique magnetic behavior of BaFe2Se3 and its potential applications.

Research reveals new principles behind circularly polarized light emission and its applications.

Investigating how chirality affects electron behavior in advanced materials.

Research reveals new ways to adjust and study moiré crystals.

This study evaluates how preparation affects the properties of zinc sulfide.

Exploring the effects of LaVO and KTaO layering on properties.

This article examines how strong electric fields affect electron movement in materials.

THz FETs could reshape electronics with high-speed capabilities.

Research focuses on new methods to control electron beams using advanced materials.

Recent studies show surprising behavior of electricity flow in ultra-clean thin wires.

Research reveals critical electronic structures in GdRuSi for future technology.

Exploring electron transport behaviors in Kekulé-ordered graphene under varying conditions.

This article covers the unique properties and applications of lead germanate oxide.

A look into the factors influencing metal-insulator transitions in materials.

Investigating electron behavior on negatively curved surfaces in magnetic fields.

Explore how magnetism drives motion in materials through the Einstein–de Haas effect.