Latest Articles for Quantum Chromodynamics

Quantum computers enhance our understanding of particle interactions and dynamics.

This article examines the role of bottom quarks in polarized particle production at the LHC.

Research sheds light on nucleon spin and its implications for particle physics.

This study presents a unified model for understanding hadron scattering behavior across energy levels.

An examination of the fascinating Domain-Wall Skyrmion phase in Quantum Chromodynamics.

Discover how pentaquarks challenge our understanding of particle physics.

An overview of scalar mesons and their importance in particle physics.

A look into neutral meson mixing and its implications for new physics.

Quark saturation is key to understanding extreme matter states in physics.

Kolya aids researchers in analyzing semileptonic decays of mesons efficiently.

This article explores the significance of -boson pair production in particle physics.

A look at strong coupling measurements using jets from high-energy collisions.

Exploring the complex nature and interactions of neutrinos in the universe.

Latin American scientists contribute to understanding particle physics at the EIC.

Examining the behavior of polarized quarks and their role in proton spin.

This article reviews phases and symmetries in two-dimensional QCD involving Dirac fermions.

Investigating local currents in varying magnetic fields during heavy-ion collisions.

Recent measurements confirm CPT symmetry, advancing our understanding of particle physics.

Scientists tackle the U(1) problem, revealing insights about meson masses and quark interactions.

A look at the subtraction function's role in particle physics and the Lamb shift.

A look into the rising trends in proton-proton scattering and their implications.

Researchers propose a new method for defining instantons in lattice Yang-Mills theory.

A look at how CWebGen aids in particle physics research.

Exploring soft emissions of quark pairs enhances particle physics understanding.

The muon's magnetic moment measurements hint at possible new physics.

Studying top quark pairs provides insights into early universe conditions.

Tetraquarks challenge our ideas of particle physics with their unique structures.

Researchers uncover the role of chaos in quarks and closed strings.

A look at nucleons and their role in the universe.

An insight into quantum simulation focusing on Yang-Mills theory and particle interactions.

New methods enhance precision in particle decay analysis and measurements.

Explore the world of hadrons and heavy-ion collisions in particle physics.

Quarkonium offers insights into fundamental physics through its production in particle collisions.

Scientists are uncovering the secrets of unique pentaquarks and their properties.

Learn about the intriguing world of pseudo-scalar Higgs and its role in physics.

Scientists uncover the relationship between dark matter and regular matter in the universe.

Exploring how phase transitions in particle theory shape our universe.

Combining complex Langevin dynamics and diffusion models to tackle tough physics problems.

Dive into the fascinating study of baryon number in particle physics.

Discover how chiral symmetry shapes the behavior of particles at high temperatures.