Latest Articles for Particle Physics

New methods enhance understanding of fluid dynamics in extreme matter scenarios.

Tetraquarks challenge traditional physics and offer new insights into fundamental forces.

This study reveals insights into particle interactions and phase transitions in Yang-Mills theory.

Exploring the influence of chiral asymmetry on magnetic fields in high-energy plasmas.

Machine learning aids in identifying new particles from LHC data.

Researchers are optimistic about observing the rare decay of the -boson into quark pairs.

Researching particle behavior in extreme collisions reveals insights into matter's fundamental nature.

Upcoming EIC will enhance understanding of proton structure through polarized deep inelastic scattering.

This article discusses QED corrections in particle decay processes and their implications.

Studying nucleon states reveals insights into atomic structure and fundamental forces.

A novel approach for extracting parton distribution functions from experimental data.

New findings reveal important aspects of gluon interactions and mass generation in QCD.

Innovative systems prevent data loss during supernova events at Super-Kamiokande.

Investigating how heavy quarks transform into hadrons and its implications in particle physics.

A new Kalman Filter enhances tracking of charged particles in Time Projection Chambers.

An overview of neutrino interactions and the significance of transverse kinematic imbalance.

This article explores QCD and its impact on neutron star properties.

Research on charm meson decays reveals new insights into particle behavior.

Examining the existence and implications of hidden dimensions in our universe.

SMEFT sheds light on particle interactions and potential new physics.

Exploring the relationship between Principal Chiral Models and non-Abelian T-duality.

Investigating charmonium production sheds light on the early universe and quark-gluon plasma.

Research improves models of how quarks and gluons form hadrons in high-energy collisions.

Researchers apply machine learning to study charm mesons in particle physics.

Micromegas detectors play a key role in identifying elusive dark matter particles.

Understanding black hole radiation through the moving mirror model reveals complex interactions.

Investigating the structure of nuclei through dijet photoproduction in unique collisions.

Examining particle polarization in heavy ion collisions and its implications on nuclear interactions.

Exploring the hidden nature and significance of dark matter in our universe.

ATLAS reveals crucial measurements about top quarks at the LHC.

Supernova 2023ixf offers fresh perspectives on cosmic ray origins and acceleration.

An overview of gauge theory and its role in understanding particle interactions.

This study investigates the N2HDM and its implications for baryogenesis and gravitational waves.

Researchers explore strange stars using Finslerian geometry and modified gravity.

A new method to analyze quantum field theories using entanglement.

A look at how the mirror twin Higgs model addresses key questions in physics.

This study clarifies findings on chiral-odd GPDs using the bag model.

Research explores how Laguerre-Gaussian electron packets scatter upon atomic collisions.

Recent insights reveal the complex structure of nucleons with a core and mesonic cloud.

Scientists explore how ultralight axions affect galaxy formation in the early universe.