Latest Articles for Electric Fields

A new method streamlines laser beam quality assessment using a single electric field profile.

Study reveals how electric fields prevent energy loss during molecular collisions.

Scientists launch an experiment using Rydberg atoms to find dark photons linked to dark matter.

Researchers enhance qubit performance by studying noise and coherence in germanium hole systems.

Recent findings challenge previous models of particle dynamics in neutron stars.

Examining factors behind electrical insulation failures in particle accelerators.

This article examines the link between electric and magnetic fields in teaching.

VSiXN monolayers exhibit unique properties for advanced electronic applications.

Scientists use microwave radiation to stabilize Rydberg atoms against electric fields.

New research enhances models of the Sun's complex magnetic interactions.

This article analyzes radiation from oscillating particles near materials, offering new calculation methods.

Investigating CaRuO₄ reveals potential for novel electronic device applications.

Discover how large-angle twisted bilayer graphene reshapes electronic properties and applications.

Investigating how ions behave in high power impulse magnetron sputtering.

A method for calculating electric fields from Gaussian charge distributions efficiently.

Study shows how electric fields create unique vortex patterns in particle production.

This article discusses nuclear spin polarization and its implications for quantum computing.

Study of how electric and magnetic fields affect planar fermions.

Research identifies safe operating voltages for LGAD sensors under high-energy conditions.

Research explores how electron-positron pairs are formed in strong electric fields.

Study reveals how electric fields influence particle behavior in helical structures.

New methods for electric field manipulation using nonreciprocal materials show promising potential.

This study examines ways to measure the size and shape of tiny silica particles.

New findings reveal unique floating behaviors of glycerol clusters under electric fields.

Exploring electric charge quantization through electric fields and boundary conditions.

Research reveals new ways to control magnetization in advanced materials.

New techniques enhance sensitivity for measuring weak electric fields using quantum properties.

Learn how quantum information diodes manage quantum data flow using magnons.

Exploring the effects of LaVO and KTaO layering on properties.

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

Researchers propose a new Hall effect related to displacement currents in advanced materials.

Research highlights the role of spin-orbit interactions in improving quantum bits.

Research reveals potential of bilayer graphene and hBN in electronic technology.

Recent advances improve the measurement of light's electric fields and their properties.

A new numerical method simulates liquid crystal reactions to electric fields.

Exploring the interaction between superconductors and magnets for future technologies.

Research reveals how cells move and respond to their environment.

Research shows electric fields can create a new state of water called ferroelectric glassy water.

Researchers develop a method to control excitons using electric fields in two-dimensional materials.

Research reveals new methods to control excitons using electric fields in two-dimensional materials.