Latest Articles for Scattering

Research highlights methods to control light scattering using special incoming waves.

A new method simplifies X-ray imaging for better detail and efficiency.

New methods improve phase reconstruction from modulus in particle interactions.

Discover how polarization of gluons deepens our grasp of particle physics.

A look into how charged particles interact through scattering events.

This article explores how magnetic fields can enhance electron trapping in graphene quantum dots.

Research reveals insights into how waves scatter in materials filled with particles.

Explore how quantum scattering affects particle states and entanglement.

Study reveals how scattering influences quasar visibility and brightness.

Research explores how nuclear reactors may produce dark photons.

Examining how delamination affects wave movement in layered structures.

Researchers are advancing detection techniques to study dark matter interactions.

Investigating the role of axion-like particles in dark matter structures.

A close look at heavy WIMPs and their role in dark matter research.

Discover how muons help us see inside objects without opening them.

A look into pp-waves and their effects on time delays in gravitational fields.

Research reveals complex behaviors in quantum oscillations of iron-chalcogenides during phase transitions.

Discover how scattering processes near black holes provide insights into the universe.

Investigating muon-electron scattering for better understanding of the muon's magnetic moment.

This study examines how sound waves scatter off complex fractal shapes.

DAISY provides a new way to measure nanoparticles in complex environments.

Study reveals insights on electron movement in GaN/AlGaN structures for better devices.

New observations reveal crucial details about dust polarization in HL Tau.

Research reveals how dark matter interacts with crystal structures, providing new detection strategies.

Exploring quantum computing's potential in analyzing electromagnetic waves in magnetized plasmas.

New modeling techniques enhance understanding of light scattering in materials.

Exploring how light interacts with particles and its effects on angular momentum.

Examining different models of nucleon interactions enhances understanding of nuclear physics.

Research reveals unique light interactions with giant atoms in waveguides.

An overview of suprathermal electrons and their interactions in the solar wind.

Examining TEP variations in Tl2201 superconductors at different temperatures and hole concentrations.

Explore the significance of kilonovae and their impact on heavy element formation.

This article examines how energy levels affect particle dynamics in heavy ion collisions.

This study focuses on the Ba ii D line in the Sun's atmosphere.

This article examines the impact of underwater conditions on quantum communication systems.

This study examines how light spreads in materials with scattered beads.

Exploring how memory alters interactions in infrared finite scattering theory.

New detector designs improve antineutrino detection for safer nuclear operations.

Investigating particle collisions under temperature and magnetic influences.

An overview of fermion-soliton scattering and its implications in theoretical physics.