Latest Articles for Electrical Engineering

Research identifies energy loss sources, improving coherence in quantum circuits.

An overview of switched linear systems and their significance in control design.

Learn how electrowetting enables manipulation of droplets on surfaces.

A look at how materials change states in quantum circuits.

This paper investigates how electric fields impact bi-SQUID performance.

A novel method improving magnetic field calculations in electromagnetics.

Research reveals interactions between superconductivity and quantum Hall states using advanced technology.

A study on electrical cardinality and mission profiles in multiport converters.

Research reveals spontaneous voltage peaks in niobium channels under specific conditions.

A fresh perspective on relaxation rates and interactions in superconductors.

New SRM method streamlines VNA calibration for improved accuracy and efficiency.

Advancements in frequency control ensure stability in modern power systems with renewable resources.

Effective strategies to stabilize under-frequency load shedding in microgrids.

Study reveals unique behaviors of noncentrosymmetric superconductor junctions, highlighting nonreciprocity.

Research reveals how doping and pressure alter (Mn Mg) Si Te's magnetic and electronic behavior.

This article explores how quantum dots behave in various conditions and their practical uses.

This article explores non-Hermitian topological phenomena in dissipatively coupled SSH models.

This study explores using parameter-aware reservoir computing to analyze chaotic circuits.

A look into the nonlinear Hall effect and its implications for materials science.

A look into the unique properties and applications of superconductors in technology.

A framework for stable, reliable power systems with renewable resources.

A look into clustering methods and their applications in optimizing electrical networks.

Unraveling the concept of resistance distance in connected networks.

New system improves the analysis of power disturbances, enhancing efficiency for utilities.

Exploring the use of analog computers for simulating quantum systems and solving complex equations.

Research on superconducting diode effect promises to advance electronic device efficiency.

Analyzing decentralized stability conditions for power converters in modern energy systems.

Exploring the potential of silicon hole spin qubits for quantum technology.

A look at estimating power grid parameters using limited data.

Research shows how electric fields change properties of bilayer graphene.

Exploring the impacts of disorder on the Thouless pump and Floquet states.

Research reveals promising magnetic properties of Co Ga Ge compounds for future applications.

A new biopotential amplifier improves neural signal capture with low noise and power consumption.

Study highlights effects of Te vacancies on unique electrical behaviors.

Examining control strategies for handling distributed energy resources in electrical systems.

Researchers propose a new way to measure corner charges in advanced materials.

Superconducting wires enhance technology through efficient power transmission and advanced magnetic applications.

This study simplifies energy behavior in materials through mathematical modeling.

Exploring the mechanisms and significance of magnetization reversal in magnetic devices.

Researchers improve methods for creating high-quality nickelate films with unique properties.