Latest Articles for Electrical Engineering

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.

Current limiting methods can improve the stability of Virtual Synchronous Generators.

Innovative imaging method combines benefits of CT and EIT for safer diagnostics.

Investigating how Yttrium affects the electrical properties of Lanthanum Yttrium Cobalt Oxide.

New methods in brain imaging promise faster insights and personalized treatment options.

Examining how time delays affect power system dynamics and stability.

This study examines Chua's and Lorentz circuits using machine learning for understanding neuronal behavior.

This article examines LaPtSi, its phases, and its superconducting properties.

A new resonator design improves performance in superconducting circuits.

An overview of superconductivity and its unique properties.

Analyzing how charging energy affects electron behavior in small electronic systems.

New methods improve speed and accuracy in reading superconducting qubits.

This article outlines methods for detecting and localizing oscillations in power systems.

New loss function boosts power flow prediction accuracy in complex systems.

Research highlights cross-area oscillations in systems with grid-forming converters.

Examining how rare earth elements influence the electrical properties of Lanthanum.

Examining electric current behavior in two-dimensional fermionic systems and their future technological impacts.

Researchers examine shot noise to unlock secrets of heavy-fermion compounds.

Explore how ion channels affect current flow and technology advancements.

A new method enhances decentralized load frequency control for electricity systems.

Helium implantation enhances the properties of polycrystalline films without causing damage.

Recent advancements in electric field management enhance Ga₂O₃ diode performance.

Research on antiskyrmions reveals complex ties with the Hall effect in materials.

Study reveals the efficiency of memristors for advanced computing tasks.

This article presents a new method for studying particles in electric fields.

Exciton condensates may lead to novel quantum technologies and unique physical phenomena.

Examining how Peierls phases influence particle behavior in physics models.