Latest Articles for Electromagnetism

This experiment aims to measure vacuum birefringence using advanced laser technology.

Explore how symmetry shapes the behavior of materials and their unique properties.

Exploring the wavefunction within the framework of quantum field theory.

New methods improve modeling of electromagnetic problems with interfaces using neural networks.

Exploring how photon mass affects atomic interactions and the implications for quantum physics.

A deep look into magnetohydrodynamics and its challenges.

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

This article explores how scientists study the charge distributions of mesons.

Exploring unique concepts and challenges in particle physics with LW QED.

An innovative perspective on electric and magnetic fields through field-dependent metrics.

Study of soliton behavior in a magnetic medium using baby Skyrme-Maxwell theory.

Examining how degenerate Fermi gas interacts with Reissner-Nordström black holes.

Examining the impact of electric forces on current measurement accuracy.

This study highlights the global behavior of solutions in a complex electromagnetic system.

Examining how rotating black holes move in electric and magnetic fields.

Exploring key aspects of the radiation gauge in electromagnetic theory.

This article examines charged particles in electromagnetic fields using KGM equations.

Research enhances pair production efficiency using combined electric fields.

Exploring quantum phase estimation using a particle in a magnetic field.

Explore the unique behaviors of spin-triplet superconductors under varying magnetic fields and temperatures.

Examining scalar fields and their interplay with electromagnetic fields at spacetime boundaries.

A look into the unique properties of Kerr-Newman black holes and their interactions.

Examining how charge density waves affect superconductivity in cuprate materials.

New techniques improve predictions in electron scattering by charged particles.

Innovative metamaterials with unique properties could transform technology applications.

Investigating how electron beams influence solar flares and space weather.

Exploring the relationship between gravity and electromagnetism through new theories and experiments.

Researchers use waveguides to model gravitational fields through simpler experiments.

How gravitational waves influence currents in plasmas and the implications for detection.

Dive into the fascinating world of a unique black hole.

A new technique enhances stability in electromagnetic field models, addressing conductivity and frequency issues.

Exploring the effects of electromagnetic and strong forces in proton-proton collisions.

This article discusses multipole expansion methods and their differences in anisotropic media.

A look into how toroids create and affect magnetic fields.

New method enhances the absorption of electromagnetic waves using time-varying materials.

New nano-antennas utilize unique materials for effective and compact radio wave transmission.

Exploring unique properties of chiral fermions in Weyl semimetals and related materials.

New techniques improve light simulation in advanced materials with complex structures.

Research highlights similarities and differences in whistler-mode wave effects on electrons.

Research examines how moving detectors interact with quantum fields and generate thermal effects.