Latest Articles for Electric Fields

New method measures electric fields using trapped ions for precise applications.

A look into how polarons affect lithium niobate's properties and applications.

A new protein helps cells navigate towards electric signals during healing.

A fresh model enhances understanding of electric fields and black holes.

Research reveals how charged droplets can effectively remove particles from surfaces.

Exploring how twisting and electric fields affect t2BN's properties.

A new method using electric fields enhances step counting accuracy.

Researchers manipulate magnetization in GaMnN using electric fields for advanced electronics.

This article examines how charged particles behave in circular orbits around black holes.

A new method for trapping small particles using light and temperature differences.

Research reveals effective defibrillation methods using significantly less energy.

Examining the impact of electric forces on current measurement accuracy.

A breakthrough nanosensor detects electric fields at unprecedented sensitivity for neuroscience research.

Research enhances pair production efficiency using combined electric fields.

Research reveals unique ion behavior in tapered nanoslits under electric fields.

Understanding wave interactions in the E-region enhances communication and weather predictions.

Research reveals interesting light interactions in moiré superlattices for electronic applications.

New designs in antennas enhance circular light control for quantum technology.

Research reveals how electric fields influence heavy-flavor mesons in extreme conditions.

Exploring advancements in vector tomography for electric field reconstruction.

Researchers propose advanced techniques using qubits to search for axion dark matter.

New findings on quantum oscillations reveal insights into electronic materials and quasiparticle behavior.

Control magnons with electric fields in multiferroic materials like NiI.

This study reveals how electric fields guide cell movements and interactions.

New missions aim to reveal Titan's buried ocean and its potential for life.

Research reveals complex dynamics of compact stars using modified gravity theories.

WINO offers faster and more efficient predictions for electric fields across varied wavelengths.

Study of how electric currents affect electron spins in various materials.

This research examines how electric fields distort ion distributions in Earth's atmosphere.

Exploring how fluctuating electric fields shape plasma particle speed distributions.

New techniques improve control of spin-qubits using single-atom magnets.

A new neural network, STAResNet, offers improved solutions for electromagnetic field predictions.

Research reveals innovative control of light using electric fields in CrGeTe.

Exploring how perovskite superlattices behave under different conditions.

ZGNRs show promise for improving energy harvesting and cooling technologies.

Researchers enhance the optical Kerr effect using guided-mode resonance gratings for advanced photonic systems.

A look at the AutoResonant Trap Mass Spectrometer and its benefits.

A new approach enhances reliability for electronic devices using aluminum oxide on gallium oxide.

Study reveals how electric fields slow superradiant light emission in ultracold Rydberg atoms.

A look into the electrical behavior of layered conductors under various fields.