Latest Articles for Electric Fields

Research measures electric fields in 6H-SiC using light and the Pockels effect.

Exploring the effects of electric fields on the QCD model and quark-gluon plasma states.

Explore how quantum-dot molecules contribute to secure quantum communication.

Exploring how light interacts with matter to create high-frequency radiation.

This study sheds light on how shocks heat electrons in space environments.

New imaging methods reveal insights into electric fields in semiconductors and dielectrics.

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

Discover how piezoelectric actuators transform electrical energy into precise mechanical movements.

A groundbreaking antenna design achieves uniform response to radio waves from any direction.

Exploring how strong electric fields create electron-positron pairs from empty space.

XENONnT experiment pushes boundaries in dark matter research with innovative electric field design.

Research shows how electric fields change properties of bilayer graphene.

Understanding the security risks of touchscreen devices from IEMI attacks.

Study reveals how electric fields can control magnetization in two-dimensional magnetic materials.

Research on lithium ion movement could enhance battery performance and charging speeds.

New method enhances understanding of various antenna shapes and their performance.

Innovative techniques to enhance magnetic fields using laser beams and nanoantennas.

Research reveals how electric fields affect tiny liquid crystal droplets.

This article covers the challenges posed by runaway electrons in fusion reactors.

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

Research offers insights into guiding epithelial cells using electric fields.

A look at InCa4D code for particle movement in capillaries.

This article explores Bloch oscillations, quantum geometry, and electron response to electric fields.

Exploring how charged polymers enhance DNA sequencing technologies.

An overview of body-area capacitive sensing technology and its diverse applications.

Examining how fluctuating magnetic fields impact the Landau Hamiltonian's behavior in particle dynamics.

Researchers develop methods to track charge movement in diamond materials.

New findings improve qubit speed and reliability in quantum computing.

Research reveals how spin waves can be controlled in antiferromagnetic materials.

A look into how altermagnetism enhances superconductivity and its applications.

Barium titanate nanocrystals offer unique properties for advanced electronic applications.

Rydberg atom antennas offer high sensitivity and low noise in radio frequency detection.

Scientists study how electric fields contribute to pulsar radio wave emissions.

Researchers achieve better control over exciton behavior in quantum dots.

Investigating how gauge fields respond to constant electric and magnetic backgrounds.

Explore the fundamental process of magnetic reconnection in plasmas and its implications.

Rosetta's mission reveals key insights into comet 67P's behaviors and ion interactions.

Exploring the behavior and applications of liquid crystals in technology.

New method improves accuracy of molecular dynamics simulations under electric fields.

Research discusses the difficulties in identifying dark photons and improving detection methods.