Latest Articles for High-Energy Collisions

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.

Exploring the production processes of heavy quarkonium in high-energy collisions.

Investigating heavy quarks' roles in the dynamics of quark-gluon plasma.

A look at particle behavior in high-energy collisions.

Research on HBT correlations sheds light on particle behavior during high-energy collisions.

This article discusses challenges in calculating three-loop form factors in particle physics.

A look at negative flow patterns of mesons in particle collisions.

Scientists investigate vector-like top quarks to address fundamental mysteries of the universe.

Research reveals behavior of particles in hot, dense nuclear matter.

Research into scalar unparticles using muon colliders offers new insights into particle interactions.

This article discusses quark flavor balancing in high-energy particle collisions.

Examining the effects of magnetic fields on lambda hyperon polarization in collisions.

Scientists investigate elusive magnetic monopoles using heavy-ion collision data.

A look into lepton pair production during hadron collisions.

Researchers study how jets behave in high-energy nuclear collisions and their interactions.

Investigating tau neutrinos and their interactions to reveal fundamental physics.

A collection of simulated jets for advancing machine-learning applications in particle physics.

Research on heavy flavor quarks in nuclear environments reveals insights into heavy-ion collisions.

A look into pair production of Higgs bosons and associated particle interactions.

New findings on heavy quark diffusion in different plasma types reveal important transport properties.

This article explores the significance and implications of neutral triple gauge couplings.

This study uses machine learning to identify strange-quark jets and improve fragmentation tagging.

Investigating multi-Higgs production and gravitational waves to reveal new physics beyond the Standard Model.

Research on high-energy collisions reveals patterns in particle behavior and correlations.

Examining the electromagnetic characteristics of quark-gluon plasma in extreme conditions.

Research investigates heavy Higgs bosons through high-energy proton collisions.

Examining Inert Higgs Doublet Models and Two Higgs Doublet Models in particle physics.

Examining the role of photons in particle collisions at high energies.

New methods improve our grasp of gluon distributions in particle physics.

Cooling muon beams is vital for effective particle collisions in advanced colliders.

Research sheds light on charmonium behavior in high-energy collisions.

Scientists reveal new findings on strange particles from proton collisions.

Exploring the effects of heavy-ion collisions on particle behavior and energy dynamics.

Scientists improve particle collision analysis using advanced technology and real-time data processing.

This study investigates hyperon yields in heavy-ion collisions and their transport mechanisms.

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

Research reveals increased production of strange hadrons in high-energy particle collisions.