Latest Articles for Electrical Engineering

Strange metals defy conventional rules, showcasing unique electrical behaviors worth studying.

Enhancing reliability in electrical grids through advanced fault location methods.

Superconducting qubits face noise challenges but are key to quantum computing advancements.

A new approach to improve voltage regulation with advanced machine learning techniques.

Exploring advancements in superconductors and their potential for future technologies.

Investigating unique properties of fractional quantum spin Hall insulators and their potential applications.

This article compares Kubo and QFT models for graphene's electrical conductivity.

This study examines how temperature influences copper electrode performance under high electric fields.

Research improves domain engineering in lithium niobate and tantalate crystals for optical applications.

Exploring the role of quantum geometry in material properties and behaviors.

Exploring modeling adequacy for inverter-based resources in managing subsynchronous oscillations.

Researchers are using transmission lines to study complex quantum behaviors.

This article explores how connections affect oscillator synchronization and sudden state changes.

Research focuses on improving electricity generation from light using lasers and advanced materials.

A look into ultraclean Andreev interferometers and their role in superconductivity.

A new algorithm improves internal image reconstruction in medical diagnostics using EIT.

A new approach improves understanding of Josephson traveling-wave parametric amplifiers.

Methods for understanding three-phase radial networks using reduced measurements.

A new design minimizes power consumption in large quantum systems with many qubits.

Research reveals unique electrical behaviors in Bernal bilayer graphene under electric fields.

Learn how demand flexibility helps balance energy use and grid stability.

Exploring electromagnetic fields in infinite solenoids with time-dependent currents.

A new method enhances the accuracy of the LinDistFlow model in power systems.

A new method groups contingencies to enhance power system stability and efficiency.

A new method improves voltage management in grids with renewable energy sources.

Researchers investigate filament formation and quantum effects in electrical devices.

Exploring the concepts and applications of superconductivity in modern science.

Research reveals unexpected behaviors in disordered superconductors, impacting future technologies.

Explore how temperature and electric fields affect HgCdTe's behavior in infrared applications.

Doping strontium ruthenate with chromium raises its Curie temperature, changing its properties.

Learn how model order reduction improves power system analysis.

Exploring current behaviors in normal metal-superconductor junctions through Andreev reflections.

A look at the role and applications of ferromagnetic materials in technology.

New methods enhance understanding of impedance in unbalanced low-voltage networks.

Volt-PF control improves voltage management in renewable energy systems.

VGa exhibits interesting superconducting properties at low temperatures and under varying conditions.

Research highlights the effects of lithium doping on Bi-2223 superconductors' properties.

Examining new methods for effective nerve stimulation without invasive procedures.

Researchers reveal complexities in plasma stability using Hall-MHD equations.

Graph neural networks speed up security assessments in power systems.