Latest Articles for High-Energy Collisions

Exploring how bottomonium forms in proton-proton and heavy-ion collisions.

Examining gluon distribution and its impact on particle physics.

Scientists investigate dielectron and diphoton pairs for potential new physics.

This study explores hadron interactions and their significance in extreme environments.

Examining how boundaries affect the chiral magnetic effect in confined geometries.

Investigating gluon behavior through deep inelastic scattering and saturation models.

Study reveals key patterns in strange hadron production from heavy-ion collisions.

Research reveals how nuclear structure affects outcomes in heavy-ion collisions.

Examining how heavy quarks transform into hadrons during particle collisions.

Researchers unveil lower bounds on scattering amplitudes, reshaping our view of particle interactions.

A look into how saturation affects particle interactions in extreme conditions.

Investigating heavy quark interactions at extreme temperatures and their implications for particle physics.

Researchers propose using LHC's existing technology to find dark matter candidates.

Examining scalar and vector boson interactions under different magnetic field conditions.

New findings improve particle interaction predictions in photon production processes.

Study explores energy patterns in particle jets from high-energy collisions at LHC.

Exploring discrepancies in B meson decays and implications of charged Higgs boson.

Researchers at Belle search for double charmonium particles and their properties.

Examining energy distribution in particle collisions through energy-energy correlators and renormalons.

A study on particle interactions in high-energy proton-proton collisions.

Learn how heavy quarks behave in quark-gluon plasma during high-energy collisions.

New methods improve predictions for quarkonium production in high-energy collisions.

Exploring QCD developments through the EPOS4 framework in high-energy collisions.

Researching lepton pair production reveals insights into fundamental physics and early universe conditions.

This article discusses the role of light quarks in photon production and electroweak corrections.

The EIC will study quarks and gluons, revealing secrets of matter formation.

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

Exploring the production and decay of unique baryons in particle physics.

The Mini FoCal prototype enhances particle collision research at the Large Hadron Collider.

A look into the Drell-Yan process and the role of NLP corrections.

Researching particle pairs in high-energy collisions at the Large Hadron Collider.

A new approach improves accuracy in identifying jet flavours during particle experiments.

New research reveals how quantum entanglement affects top quark behavior in collisions.

A study of Sudakov shoulder logarithms and their impact on heavy jet mass predictions.

Scientists investigate axion-like particles formed during top quark collisions.

Research reveals how rotation affects quark-gluon plasma behavior in heavy-ion collisions.

A look into how partons lose energy in different conditions of QGP.

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

A look into how collisions affect strange particle production.

Polarized photons provide insights into quark-gluon plasma behavior during heavy-ion collisions.