Latest Articles for Electrical Engineering

R-SIP improves EIT imaging quality using a blend of AI and traditional methods.

Exploring the significance of Weyl points in topological photonics and their applications.

Research into electrical circuits that mimic the AAH model reveals insights on signal behavior.

Researchers improve Josephson junctions using NbTiN and focused helium ion beams.

Study reveals unique supercurrent behavior in full-shell nanowires under magnetic fields.

Exploring how electrical interactions in nanostructures vary with size and shape.

Research explores molecular motors that use electrical current for motion.

Research reveals new paths toward topological superconductivity in layered materials.

Discover the role of dielectric elastomers in soft robotics and energy harvesting.

Research on how temperature affects electrical resistivity in strontium titanate.

This study looks at synchronizing Chua circuits using capacitors for better control.

Researchers unveil a new beam splitter for faster quantum state transfers using topological insulators.

Research reveals how insulating layers can boost NV centers' sensing abilities.

Research focuses on measuring coil inductance in superconductors at varying temperatures.

New algorithms improve microgrid investment planning and frequency management.

Study reveals complex behavior of superconducting quantum dots under voltage.

A new method combines EEG and imaging for accurate electrode orientation in DBS.

Researchers create single-crystalline lutetium hydride films with potential for superconductivity.

A new cuprate, Sr Ca CuO, shows superconductivity at 90 K with unique atomic structure.

New insights on boron and aluminum doping effects on silicon's electronic structure.

Research reveals how packaging affects superconducting microwave device performance.

New methods for creating high-quality niobium films could enhance quantum computing.

A look at the methods used to ensure power system reliability.

Key techniques to maintain reliability in power systems and ensure stable electricity supply.

Examining how electrical energy affects molecular bonds in nanoelectronic devices.

Innovative methods for safeguarding microgrids during faults using real-time data.

A new algorithm addresses inaccuracies in optimal power flow solutions.

A new method enhances optimal power flow using past solutions.

A look at the efficiency of constant-depth circuits over monotone circuits.

Exploring the interplay of superconductors and charge carriers for advanced quantum technologies.

This study focuses on detecting Cooper quartets in four-terminal Josephson junctions.

This paper discusses the benefits of Multiplexed Soft Open Points in power distribution.

Research reveals tantalum as a key material for improving qubit efficiency.

Exploring how layer thickness and disorder affect conductivity in superlattices.

A new approach to manage voltage levels using real-time data.

Graph Neural Networks enhance state estimation speed and accuracy in power systems.

Research on La Sr NiO sheds light on superconductivity mechanisms.

Examining the role of memristors in neuromorphic computing and their potential applications.

Analyzing how inverters react to faults in power systems.

Exploring how hydrophobic surfaces influence liquid movement and electrokinetic transport.