Latest Articles for Electrical Engineering

Research reveals promising properties of RTO nanocrystals for advanced memory devices.

Learn how EMODM detects abnormal patterns in complex systems effectively.

A look into the mechanisms influencing resistivity in materials.

New modeling reveals how defects and doping affect grain growth in oxide ceramics.

Study reveals unique electrical behaviors at step edges of NiS2.

This article examines how flow impacts the properties of carbon black-filled silicone materials.

Exploring how strain influences spin qubit performance in quantum computing.

Research on 1T-RhSeTe reveals its potential in superconductivity and electronic properties.

Quasiparticles disrupt superconducting circuits, impacting quantum computing performance.

Learn how microgrids and BTB converters enhance energy resilience.

Discover how memristive technology can transform matrix inversion efficiency.

Research reveals new methods for controlling silicon-based qubits and addressing crosstalk challenges.

Research focuses on improving electrical contacts to enhance quantum computing.

Research reveals behavior of electrical and thermal properties in 2D topological materials.

Research highlights the effects of Higgs mode and impurities on superconductors.

A novel silicon-aluminum capacitor could enhance superconducting circuit performance.

A new method combines traditional techniques with machine learning for better power flow optimization.

New research shows carbon nanoscrolls can greatly enhance electrical conductance under magnetic influence.

Research reveals how LAFO properties affect SHNO performance and efficiency.

Y-Flash cells and Tsetlin Machine enhance machine learning efficiency.

Exploring how neuromorphic computing mimics human brain functions.

This study investigates entanglement-like behavior in electrical circuits under varying conditions.

Research on PF2 ions aims to enhance phosphorus accuracy in quantum computers.

Research on BaFe(As,P) enhances understanding of superconducting behavior and properties.

A fresh approach to understanding charge dynamics in batteries and electronics.

New method streamlines analysis of particle movement in quantum systems.

Exploring how strain effects in SWCNTs can transform electronic devices.

New strategies improve voltage regulation in DC-DC converters under varying load conditions.

Research reveals how specific ions can improve perovskite solar panel efficiency.

An overview of the inverse obstacle problem and its implications in imaging.

A deep look into soft magnetic composite materials and their modeling.

Research reveals new aspects of Coulomb drag in low-dimensional systems.

Research highlights the relationship between piezoelectric materials and the Casimir force.

New algorithm enhances decision-making in power grid operations using historical data.

A novel approach to managing power packets improves energy distribution.

New method measures electric fields in picoseconds with single electrons.

Explore how DC-DC converters ensure stable power in electronic systems.

Explore how granular aluminum showcases unique superconducting abilities and its applications.

Research reveals unique properties and behavior of topological metals under magnetic fields.

This research explores biased cooling methods for improved control in quantum circuits.