Latest Articles for High-Energy Collisions

This article explores the Odderon and its significance in particle physics.

Examining connections between particle interactions in Quantum Chromodynamics.

The ILC aims to deepen our knowledge of fundamental forces through high-energy particle collisions.

LHCb is advancing the study of heavy-ion and fixed-target particle collisions.

Researching quark-gluon plasma behavior under extreme conditions in heavy-ion collisions.

Researching SUEPs may hint at new particles and interactions within dark sectors.

Examining jets to enhance our understanding of the quark-gluon plasma.

Research reveals how memory affects heavy quark dynamics in quark-gluon plasma.

A look into the methods used for identifying jet charges in particle collisions.

Investigating strange baryons and their role in nuclear collisions.

A look into boson interactions with bottom quarks at the LHC.

This article explores how high-energy photons interact in ultra-peripheral collisions of lead nuclei.

Investigating dark photons could reveal secrets about dark matter and our universe.

Exploring total cross section's role in high-energy proton collisions and future research.

Research focuses on heavy neutral leptons and lepton number violation at muon colliders.

Research enhances predictions of particle interactions involving top quarks and photons.

This article examines the role of jets and 1-jettiness in particle physics.

This article explores next-to-leading power corrections related to thrust and the -parameter in particle collisions.

A look at how evolution kernels impact our understanding of protons and their inner workings.

New insights into dark matter and the electroweak phase transition emerge from the cxSM.

Physicists use machine learning to analyze collision data for potential new particles.

Scientists study hadron interactions to learn about matter's structure and fundamental forces.

A look into the significance of soft gluons in Quantum Chromodynamics.

Investigating quarkonia pair production in high-energy collisions reveals ongoing challenges and potential for new insights.

This study explores soft particle interactions and their impact on high-energy physics.

Investigating hyperon behavior and its implications in high-energy nuclear collisions.

New methods improve understanding of particle collisions and parton interactions.

Recent findings reveal new particle states and their interactions.

Research on charmed hadrons reveals insights into high-energy particle interactions.

Research reveals clearer understanding of multi-parton interactions in high-energy collisions.

Research reveals unexpected patterns in particle collisions involving polarized protons.

Examining the connection between Parton Branching and Collins-Soper-Sterman frameworks in high-energy collisions.

Examining how particles emerge from high-energy proton-proton collisions.

Scientists search for new Higgs particles to fill gaps in the Standard Model.

Researchers study neutron behavior under spin influences in high-energy collisions at RHIC.

Scientists investigate elusive particles to deepen our understanding of the universe.

Scientists reveal new findings on top quarks and their interactions at the LHC.

Researchers investigate hyperon polarization's origins in high-energy particle collisions.

Nuclear PDFs are crucial for understanding particle interactions in colliders.

A look into the role of top squarks in understanding supersymmetry.