Latest Articles for High-Energy Collisions

LHCb research sheds light on particle interactions and matter structure.

Examining single particle production at forward rapidities in high-energy collisions.

A look into how jets inform our understanding of particle interactions.

Explore the behavior of heavy and light quarks in particle physics.

This article examines the impact of classical and quantum corrections on jets in QGP.

Research on particle collisions enhances our understanding of fundamental physics.

Analyzing jets from quarks and gluons is key to advancing particle physics.

A look into how particle distribution varies in heavy ion collisions.

Studying pion emission in high-energy collisions reveals important quantum behaviors.

Research focuses on proton interactions in ultraperipheral collisions of heavy ions.

Researchers use machine learning to distinguish between meson types in particle collisions.

Examining the impact of magnetic fields on heavy quarkonia behavior in nuclear matter.

Researchers refine particle production models using advanced TMD factorization techniques.

Examining how jets behave in quark gluon plasma reveals important properties of nuclear matter.

NA60+ aims to gather data on heavy quarks and quark-gluon plasma.

This study examines the role of odderon spin in elastic scattering processes.

A look into high-energy particle interactions and their implications.

This article explores the (1460) meson and its interactions within kaonic systems.

Research reveals new evidence of triboson particles in high-energy collisions.

LHC experiments aim to improve cosmic ray interaction models using proton-oxygen collisions.

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

A look into hadron collisions and inelastic events in particle physics.

Research on Quark-Gluon Plasma reveals complex behaviors through kinetic theory and hydrodynamics.

Recent findings from the STAR experiment shed light on quark-gluon plasma properties.

Studying ultraperipheral collisions reveals the structure of protons and nuclei through photon interactions.

Researchers seek new particles to answer fundamental questions in particle physics.

New insights into tetraquarks reveal complex interactions and stability factors.

Research investigates unique features of Oxygen-Oxygen collisions and their significance.

Recent findings shed light on diquarks' role in charm baryon production.

Scientists investigate vector-bosons decaying into top and bottom quarks in proton collisions.

A look into gluons and their role in protons.

Research aims to clarify how hyperons acquire their spin in particle collisions.

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

Research investigates how nuclear shape impacts quark-gluon plasma in heavy-ion collisions.

The ATLAS collaboration improves tracking software to handle high collision rates.

Researching particle decays to understand strange particle interactions at PANDA.

Recent findings on top-quark and W-boson production at the LHC enhance particle physics research.

Investigating the effects of rotation on quark-gluon plasma properties.

An examination of jets and their significance in particle physics.

A new method improves understanding of particle correlations in high-energy physics.