Latest Articles for High-Energy Collisions

Recent findings enhance understanding of particle interactions and resonant structures.

New methods enhance understanding of fluid dynamics in extreme matter scenarios.

Researching particle behavior in extreme collisions reveals insights into matter's fundamental nature.

Investigating how heavy quarks transform into hadrons and its implications in particle physics.

Research improves models of how quarks and gluons form hadrons in high-energy collisions.

Researchers apply machine learning to study charm mesons in particle physics.

Investigating the structure of nuclei through dijet photoproduction in unique collisions.

Examining particle polarization in heavy ion collisions and its implications on nuclear interactions.

ATLAS reveals crucial measurements about top quarks at the LHC.

Scientists reveal surprising baryon production patterns at LHC, challenging existing models.

Investigating scalar particles decaying into Higgs bosons through high-energy collisions.

New insights into particle interactions using Standard Model Effective Field Theory.

Researchers improve jet tagging using an efficient Mixer Network method.

Explore the significance of parton showers in high-energy particle collisions.

Examining stability, causality, and fluid behavior in extreme conditions.

Exploring heavy-ion collisions reveals the complex behavior of gluons in nuclear matter.

Recent research investigates heavy Higgs bosons decaying into top quarks using LHC data.

This article discusses the Drell-Yan process and its two-loop mixed corrections.

This article examines behavior changes in dense quark-gluon plasma using the V-QCD model.

Researchers enhance b-hadron identification methods at the Large Hadron Collider.

Exploring how collisions reveal protons' inner structure through photon production.

Scientists detect top quark pairs in proton-lead collisions at the LHC.

Researching strange hadrons to improve understanding of particle collisions and interactions.

Investigating charged Higgs bosons to expand our knowledge of particle physics.

This article examines how anisotropic plasma influences heavy quarkonium formation.

This study investigates heavy quarkonia behavior under thermal conditions in a quark-gluon plasma.

Research on sterile neutrinos could reveal new physics beyond current models.

A look into the properties and transitions of quark matter in extreme conditions.

Analyzing high-energy ion collisions to explore the fundamental nature of particles.

A deep dive into the role of heavy quarks in hadron formation.

Examining jet behavior in proton-proton collisions at 13 TeV.

Study reveals detailed behavior of jets from boson events using advanced techniques.

New insights on Higgs boson pairs enhance understanding of particle masses.

A look into azimuthal asymmetries and TMDs in particle physics.

Scientists investigate heavy scalar particles decaying into Higgs bosons and leptons.

Gaussian Mixture Models improve predictions in particle physics by addressing data tensions.

Scientists investigate W and Z bosons for clues about dark matter.

Investigating personalized amplitudes to enhance particle interaction models.

Study reveals the impact of charm quarks on particle production in high-energy collisions.

A new tool simulates DIS events, focusing on massive particles and neutrinos.