Latest Articles for Electrical Engineering

A study on predicting the dynamics of air streamers using simplified models.

A new model enhances power grid efficiency amid renewable energy challenges.

New methods improve Electric Network Frequency estimation from video sources using advanced cameras.

Examining how magnetic fields influence NbTiN superconducting resonators in quantum circuits.

Discover the unique properties and challenges of iron-based superconductors.

A look into Moore automata and their relationships with Mealy automata.

Graph U-Net enhances EIT imaging through improved accuracy and speed.

Research reveals potential of supercurrent diode effect in superconductors for future technology.

Research reveals how ion movement affects superconductivity in clathrate hydride.

Research on Fe Te Se superconductors reveals intriguing behaviors related to iron content and magnetic fields.

This article explores how Combined Heat and Power systems improve urban energy balance.

Comparing HSCC designs for efficient voltage conversion.

Research reveals surprising behaviors of Anderson insulators when exposed to magnetic fields.

Research reveals intriguing properties of pyrochlore iridates near quantum critical points.

A new method to improve power grid efficiency using quantum annealing.

A straightforward approach to understanding unbalanced power flow in AC power systems.

Exploring Tomasch oscillations to distinguish between types of superconductors.

Learn how thermal noise currents can reveal material conductivity properties.

Investigating the properties and potential of MnPbBiTe in advanced technologies.

A study on how manipulating Pearl length boosts superconductor efficiency.

Learn how signals behave in transmission lines and the importance of transient response.

Research reveals how spin-1 chiral fermions affect electrical conductivity in materials.

Exploring superconductors and their impact on technology through advanced simulation techniques.

This article highlights the potential of vertical double quantum dots in future quantum technologies.

Topological photonics offers new ways to control light using mathematical principles.

Exploring how magnetic materials interact with electric currents reveals exciting energy storage mechanisms.

Researchers investigate a unique state of matter with mixed superconducting and metallic properties.

A breakdown of electrical networks, conductances, and their behavior based on observed responses.

This research explores how structural arrangement impacts superconducting properties of TiO thin films.

Evaluating the reliability of PMUs in modern power systems is essential for stable operations.

This article discusses magnetic domain walls and their applications in technology.

Establishing a benchmark for assessing forced oscillation estimation accuracy in power systems.

Efficiently placing PMUs enhances monitoring in electrical power networks.

New techniques aim to enhance stability and efficiency in power grid operations.

Study of PMU placement for effective power network monitoring amid device failures.

A look at saltation matrices in hybrid systems and their applications.

Exploring how disorder influences superconductors and their unique properties.

Exploring the properties and challenges of bismuth selenide in topological insulator research.

Exploring quantum computing's role in solving power system dynamics efficiently.

Investigating methods to measure and reduce noise in double quantum dots for better performance.