Latest Articles for High-Energy Collisions

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.

Study correlations in heavy ion collisions to learn about nuclear matter and forces.

Research sheds light on particle interactions involving leptons and jets at high energy collisions.

A look at the impact of radiation on particle interactions in colliders.

Researchers leverage autoencoders to enhance LLP detection in particle physics.

Recent findings in top-quark physics enhance our grasp of particle interactions.

Researchers are uncovering the complex nature of tetraquarks in particle physics.

Heavy quarks reveal insights into matter behavior during high-energy collisions.

Research on heavy quarks sheds light on the universe's early moments.

This study advances models of hadron formation by including excited states of mesons.

Research reveals how dijet production varies in proton-lead collisions based on centrality.

Study reveals how particle size affects production during high-energy collisions.

Research reveals important interactions of heavy quarks in high-energy collisions.

Research on heavy ion collisions reveals crucial details about the universe's early moments.

Examining dilepton production reveals insights into quark-gluon plasma behavior.

Improvements in calibrating top quark mass using advanced Monte Carlo event generators.

This article examines baryon behavior and correlations in high-energy particle collisions.

New POWHEG generator enhances deep inelastic scattering simulations for particle physics research.

CMS upgrades enhance detection capabilities for upcoming particle collision phases.

Examining fragmentation functions and sum rules in high-energy particle collisions.

Researchers seek heavy particles to deepen understanding of particle physics.

Study reveals how direct photons shed light on extreme matter conditions.

This study examines shear viscosity in hot, dense fermionic matter under rotation.

A look into how energy is shared in particle jets.

A study on particle behavior in high-energy nuclear physics.

Research reveals how electric fields affect QCD matter behavior.

A closer look at the role of soft emissions in particle collisions.