Latest Articles for High-energy Physics

Investigating how jets interact with dense matter created in heavy-ion collisions.

Learn about cosmic rays and their impact on our understanding of the universe.

Exploring the interplay of charged pion condensation and color superconductivity in quark matter.

An insight into cosmic rays, their origins, and energy loss mechanisms.

TRISTAN collider seeks to study axion-like particles and their role in lepton flavour violation.

A look at how SMEFT predicts outcomes in high-energy particle collisions.

Scientists search for diphoton events to find new particles and forces.

This study examines thermal behaviors in complex scalar fields and fermions.

A look into subtraction schemes to manage singularities in particle physics.

Research on vector-like fermions and scalar singlets seeks answers to fundamental questions.

This article examines the relationship between holography and RG flow in quantum physics.

Research on rare neutrino tridents could reshape particle physics.

Exploring the links between integrability and one-loop renormalizability in non-linear sigma models.

Research on Schottky diodes and pn junctions for high-energy physics.

Exploring the role of Centaurus A in producing ultra-high-energy cosmic rays.

This article reviews the latest methods for observing pulsars and their emissions.

Discover how machine learning aids in top quark analysis.

Research reveals insights into quark behavior under extreme conditions.

This study explores how rotation affects heavy vector mesons in quark-gluon plasma.

W51 complex reveals new insights into cosmic ray origins and acceleration mechanisms.

A fresh approach to improve gamma-ray observations using neural networks.

Research reveals new data on deuteron-proton scattering and its fundamental interactions.

Researchers investigate vortex rings formed during particle collisions to understand matter behavior.

Study reveals small effects of multi-parton interactions in heavy-ion collision jets.

This article examines how pulsars create mirage sources in cosmic ray emissions.

Exploring the role of quarks and parton distribution functions in high-energy physics.

Machine learning techniques enhance data analysis in high energy physics experiments.

Research reveals new details about the internal structure of pions using lattice QCD.

A new framework enhances understanding of parton density functions using machine learning.

Researchers investigate gluon density and model challenges in particle physics.

Research highlights improvements in measuring meson decay constants using advanced simulations.

New findings reveal intense gamma rays from HAWC J1746-2856 in the Galactic Center.

Researchers analyze particle jets to learn about quark-gluon plasma properties.

New insights challenge traditional views on quarkonia and QGP formation.

Research reveals how spectators influence particle distribution in heavy-ion collisions.

Using quantum autoencoders to identify new physics signals at the LHC.

A study focusing on handling infrared divergences in high-energy particle interactions.

Research reveals collective behavior in smaller particle collisions, challenging traditional views.

HESS J1809-193 offers insights into cosmic rays and high-energy astrophysics.

Discover the powerful emissions and dynamics of magnetars in the universe.