Latest Articles for Electrical Engineering

Research highlights new methods for manipulating NV center states using electric fields.

Investigating how spin-orbit coupling influences electrons in two-dimensional materials.

New insights into shot noise behavior in tiny electronic devices.

A novel method improves how we study materials that conduct electricity.

Study reveals how chip orientation influences SRAM-based PUF performance.

New visualization techniques improve representation of voltage data in electrical grids.

Research unveils how charge distribution affects fluid movement in treated nanochannels.

Researchers explore new memory device technologies using unique thin film materials.

Explore how emergent inductors may shape future technologies.

Research shows how substrate choice and MBL affect polymer conductivity.

A new method improves the calculation of solar energy hosting capacity.

Learn how AC/DC grids connect different energy networks effectively.

A new quantum current sensor improves accuracy in measuring electrical currents.

Improving electrical grid management with generative modeling and PWL approaches.

Study reveals MgB's potential for nonvolatile heat flow control.

A look at improving inverter modeling for renewable energy systems.

A novel approach to improve performance in high-level synthesis through dynamic scheduling.

New device secures Intelligent Electronic Devices from counterfeiting and boosts authentication.

Examining quasiparticles and Andreev reflection in unique quantum states.

Study reveals unique electrical behavior in bilayer materials under varying conditions.

A flexible model improving fault diagnosis in electrical motors across various conditions.

Delafossite metals have unique properties that enhance their electrical conductivity.

A look at conducting polymers and their potential impact across various industries.

Enhancing GFM IBRs stability with novel control strategies for renewable energy integration.

Research on nitridized aluminum reveals its potential in superconducting applications.

Exploring emergent inductance in strongly correlated magnets and its potential applications.

Exploring new models for achieving room-temperature superconductors.

Research highlights the unique properties of topological insulators using cold atoms.

Research reveals complex relationship between superconductivity and charge density waves in materials.

A new tool streamlines large constant multiplication for improved cryptographic system performance.

Understanding vortices and defects in superconducting nano-bridges for advanced applications.

Investigating unique electrical behaviors in Rashba materials with hexagonal warping structures.

A new framework simplifies the analysis of superconducting quantum circuits.

A new model enhances predictions for magnetic hysteresis in materials.

This article discusses a new method for modeling electric double layers in energy storage devices.

This article discusses techniques to analyze specific areas within integrated circuits.

A study reveals the effects of charge noise on quantum dots and qubits.

Steady loop currents challenge traditional views on energy radiation.

Exploring the effects of strain on the magnetic properties of SrRuO.

Examining the role of grid-forming inverters in future power grid stability.