Latest Articles for Electrical Engineering

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.

Examining TEP variations in Tl2201 superconductors at different temperatures and hole concentrations.

A look into the effects of Johnson noise on electronic circuit performance.

An overview of self-pulsing behavior in DBD applications.

Research reveals methods to manipulate the phases of InAs/GaSb materials using light and electric fields.

Kagome superconductors show unique behaviors in low-temperature conductivity and electron pairing.

Research shows memristors can emulate neuron behavior by emitting light during electrical switching.

Exploring the synergy of silicon photonics and neural networks for efficient information processing.

A new converter system enhances energy management in modern applications.

Exploring the dynamics of liquid movement in microfluidic devices.

Research focuses on improving the growth of InAs nanowires using a new model.

Study of waveguide networks reveals insights into quantum mechanics and microwave behavior.

Recent studies reveal surprising transitions in cuprate materials from superconductors to metals.

New methods improve predictions for chalcopyrite semiconductor properties.

A look into how superconductors allow current flow in one direction.

New methods enhance magnetization dynamics for efficient memory applications.

Study reveals how impurities alter edge states in topological materials.

Study reveals strong link between AHE and spin chirality in EuZnSb.

New strategies enhance shift current in solar materials using virtual transitions.

Research highlights the unique benefits of superconductivity in atomically thin materials.

New metasurfaces that control light using electrical signals offer promising applications in optics.

A look at how energy systems adapt to renewable sources.

Exploring how quantum algorithms perform in solving power flow problems.

This study examines how critical currents affect superconducting quantum interference filters.

Research improves durability of ion traps using innovative metal stacks.

A new approach to enhance ACOPF solutions using linear cutting-plane relaxations.

A look into how electrical measurements reveal hidden materials in solid objects.

Memristive devices are changing how we understand data storage and computation.