Latest Articles for Quantum Chromodynamics

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.

Exploring how quantum computing can enhance our understanding of quark interactions.

Recent research sheds light on chiral symmetry breaking and its implications in particle physics.

A new approach sheds light on chiral symmetry breaking in quark interactions.

Recent findings shed light on a rare hadronic decay process and its implications.

A deep dive into WZW terms and their role in quantum chromodynamics.

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

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

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

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

New studies enhance knowledge of quark-gluon plasma and QCD phase transitions.

This study enhances our grasp of hadronic interactions in Quantum Chromodynamics.

Explore the significance of parton showers in high-energy particle collisions.

Exploring the complexities of charge-parity conservation in particle physics.

This article discusses the Drell-Yan process and its two-loop mixed corrections.

A look at how DIS helps reveal valence quark distributions in protons and neutrons.

This study examines electric currents in QCD influenced by magnetic fields.

Examining the role of soft quarks in Higgs boson production at particle colliders.

Examining baryons' properties and their role in atomic structure.

A new method improves the speed and accuracy of Fourier-Bessel transforms in physics.

This study examines the momentum contributions of quarks and gluons in pions and kaons.

Research reveals the absence of CME current in equilibrium QCD.

Research aims to identify a critical point in the QCD phase diagram through heavy-ion collisions.

A new framework links strong interactions with dark matter through complex particle dynamics.

Examining particle collisions reveals key information about hadrons and internal structure of protons.

A deep dive into the role of heavy quarks in hadron formation.