Latest Articles for High-Energy Collisions

Research on J/ψ production helps reveal nuclear matter behavior during heavy-ion collisions.

Analyzing QCD corrections for accurate predictions of Higgs boson decays.

Research reveals how quarks and gluons behave under extreme conditions.

This research investigates long-lived particles using the ATLAS detector at CERN.

A study investigates the potential existence of dark photons at the Large Hadron Collider.

Quantum algorithms improve jet clustering, aiding particle physics research and data analysis.

A look at jet quenching and its relevance in quark-gluon plasma studies.

Recent study sheds light on Higgs boson interactions with top quarks.

Research measures Higgs boson production rates in collisions involving top quarks.

A study of jet structures formed from heavy particle decays.

Discover how pile-up collisions contribute to particle physics studies at the LHC.

Researchers investigate charged Higgs bosons using data from proton-proton collisions.

A look into how charges behave in high-energy physics through one-point correlators.

Examining how strong magnetic fields influence the running coupling constant in quarks.

Exploring the intricate patterns in particle movement after heavy-ion collisions.

Antenna subtraction improves calculations in particle physics, enhancing our understanding of fundamental forces.

Researchers analyze how observables change during high energy particle collisions.

Examining the role of diffractive processes in particle physics.

An overview of techniques and findings related to Higgs boson production.

A new method combines soft and hard particle interactions for deeper physics insights.

This study examines how jet size influences energy loss in heavy ion collisions.

Exploring how cold nuclear matter alters particle production in heavy-ion collisions.

Examining new methods for identifying boosted top quark jets in particle collisions.

Examining heavy mesons provides insights into quark-gluon plasma behavior and energy loss.

Research on jet production provides insights into the quark-gluon plasma.

New methods using algorithms improve track finding from space points in particle collisions.

A look into models for studying charged particle production in collisions.

Scientists investigate low-mass particles related to dark matter at the LHC.

Investigating top quark production reveals insights into fundamental particle interactions.

Scientists study boosted objects using advanced technology and machine learning at the LHC.

Exploring the complex interactions of particles using advanced femtoscopy techniques.

Investigating the Odderon and its role in high-energy particle interactions.

Recent findings reveal a new decay mode in charmonium, advancing particle physics understanding.

Exploring energy distribution and dynamics of jets in quark-gluon plasma.

Research into proton structure expands with advances in deep inelastic scattering.

Investigating spin polarization of hyperons in particle collisions reveals insights into extreme matter conditions.

Research on light nuclei and hypernuclei formation in lead-lead collisions reveals fundamental physics.

Investigating the Two-Higgs-Doublet Model and its implications in particle physics.

Researching how initial conditions affect quark-gluon plasma dynamics and hyperon polarization.

Investigating gluons and transverse momentum distribution in high-energy particle collisions.