Latest Articles for Quantum Chromodynamics

Scientists investigate phase changes in matter using particle collisions at CERN.

Delving into the properties and significance of doubly heavy baryons in particle physics.

Exploring how four-quark scatterings deepen our knowledge of particle behavior.

A look into the complexities of strong interactions and particle behavior.

New findings in small particle collisions reveal insights into fundamental physics.

A study of quark interactions and their impact on neutron stars.

This study uses machine learning to improve understanding of neutron star equations of state.

Research introduces unbiased phase factor to enhance understanding of QCD behaviors.

Recent findings in two-color QCD shed light on sound velocity in neutron stars.

This article examines transverse polarization in hyperons during proton-proton collisions.

A study on the interplay of string theory and QCD through fermions and baryons.

Investigating hadrons, their formation, and ongoing challenges in particle physics.

Researchers study Higgs boson characteristics and decay processes for deeper understanding.

This research dives into the fragmentation processes of small jets in particle collisions.

Explore the interactions of particles, focusing on QCD and tetraquarks.

A look into the challenges of measuring the strong coupling constant.

Researchers study nuclear pasta to understand matter in extreme environments.

Researchers use quantum computers to simulate fundamental particle interactions in SU(3) theory.

New methods improve accuracy in QCD simulations, focusing on fermions and their interactions.

Scientists study jets and subjets to improve particle behavior models.

Exploring the role of ghost fields and the Gribov horizon in QCD.

A look into non-Hermitian Wishart matrices and their applications in statistics and physics.

This article explores quarkonium's role in understanding particle interactions and the strong force.

Investigating hybrid mesons could reshape our knowledge of particle interactions.

A detailed look into the QCD parameter and its significance in particle physics.

Investigating critical points in quantum chromodynamics and their significance in understanding matter.

Research explores dijet production and non-eikonal corrections in high-energy particle collisions.

A look at how color structures affect particle interactions and their implications.

Delve into the essential theory of how quarks and gluons interact.

Research on baryonic vortices sheds light on matter under extreme conditions.

This research examines phases of fermionic matter influenced by interactions at finite temperature and density.

Discover how nuclear shadowing affects particle interactions in high-energy physics.

New methods enhance predictions of hadronic decays in particle physics.

New simulation techniques enhance our understanding of electroweak production at colliders.

Exploring the unique state of matter that existed shortly after the Big Bang.

Scientists measure vector boson production in high-energy proton collisions at LHC.

Exploring the role of pions in strong interactions and particle dynamics.

An overview of how quarks and gluons interact in particle physics.

Investigating quarkonium from proton collisions reveals details about gluon behavior.

Researchers study particle fluctuations during phase transitions to find critical points.