Latest Articles for Quantum Chromodynamics

Examining how magnetic fields influence QCD matter in high-energy collisions.

Research on scalar mesons reveals complex decay processes and fundamental interactions.

Exploring the dense and mysterious world of neutron stars and their unique properties.

A look into Skyrmions and their role in understanding Baryonic matter.

Research explores leading particle production in high-energy electron-proton collisions.

This article explores the Odderon and its significance in particle physics.

LHCb is advancing the study of heavy-ion and fixed-target particle collisions.

Examining the role of CP-odd Higgs couplings in electron EDM measurements.

An overview of quark-meson models in particle physics and their significance.

Researching quark-gluon plasma behavior under extreme conditions in heavy-ion collisions.

A look into charmoniumlike hybrids and their decay processes in particle physics.

An overview of neutron stars and hybrid stars and their unusual properties.

Understanding tetraquarks can change our view on fundamental forces in nature.

Recent studies improve heavy flavor corrections in deep inelastic scattering for better predictions.

Exploring superselection rules and their impact on quantum error correction methods.

HERA and EIC efforts enhance understanding of strong coupling in particle physics.

A look into the significance of soft gluons in Quantum Chromodynamics.

Researchers develop better Hamiltonians for simulating quantum chromodynamics interactions.

New methods aim to enhance understanding of parton distributions in protons and nuclei.

A look into Effective Field Theories and their role in particle physics research.

An overview of fully-heavy multiquarks and their mass behavior.

Research reveals Lambda(1405) may consist of two nearby resonances.

Recent findings enhance understanding of non-open charm hadrons and their interactions.

A look into mesons and their significance in particle physics.

Exploring heavy-light mesons and their significance in understanding particle interactions.

New Few-Degree Calorimeter aims to improve gluon studies at the EIC.

Exploring the study of quarks through holographic QCD and its implications for physics.

Research on gravitational form factors enhances knowledge of baryon properties.

Examining the significance of dynamical gluon mass in high-energy physics.

Researchers study quark-gluon plasma using higher-dimensional gravity models.

A look into the strong force and its role in hadron structure.

Investigating drag force and potential energy in rotating quark-gluon plasma.

Research suggests hadrons may show complex fractal patterns, impacting our understanding of particle physics.

Research reveals insights into matter behavior in extreme conditions.

Research uncovers details on excited hyperons, advancing knowledge in particle physics.

A look into the complexities of QCD and high-energy interactions.

Examining the characteristics and differences between neutron stars and quark stars.

A deep look into the electromagnetic properties of baryons and their complex structures.

A look at how renormalization shaped physics over the decades.

BESIII reveals new insights into light mesons and their interactions through precise data collection.