Latest Articles for High-energy Physics

Examining merging and stripping processes in neutron star systems.

Research on heavy-ion collisions reveals properties of quark-gluon plasma and fundamental forces.

This article discusses the importance of extragalactic background light in cosmic studies.

ATLAS develops a fast b-jet tagging algorithm for efficient data processing.

Exploring the potential of lepton flavor violation signals through new colliders.

A new tool aids scientists in analyzing supersymmetry models using existing data.

Study of how electric and magnetic fields affect planar fermions.

New measurements of Higgs boson production from high-energy collisions provide key insights.

Scientists investigate gauge couplings to uncover potential new physics beyond the Standard Model.

A look into how gravity influences the interaction of objects in space.

Study reveals details about X-ray bursts from neutron star Swift J1749.4-2807.

This article explores the role of right-handed neutrinos in SMEFT and their implications.

Exploring the significance of gluon production in high-energy physics.

A look at how particles behave under extreme momentum in Quantum Field Theory.

Researchers utilize machine learning to improve particle simulations at CERN's Large Hadron Collider.

Research investigates charm production in high-multiplicity proton collisions at the LHC.

Dark matter clumps may trigger supernovae and superbursts in stars.

Scientists study doubly heavy baryons to learn about fundamental forces and particle interactions.

Researchers achieve improved accuracy in parton distribution functions for high-energy physics.

Scientists focus on portability solutions for HEP software to fit modern hardware.

Recent studies improve heavy flavor corrections in deep inelastic scattering for better predictions.

Discover how quantum annealers facilitate string model selection effectively.

Researching Higgs boson decays to find new physics at FCC-ee.

Upcoming experiments may shed light on elusive Axion-Like Particles and their role in physics.

A new algorithm enhances heavy quark process simulations for precise particle physics predictions.

An overview of bottom baryons and their significance in understanding particle interactions.

Recent research aims to find squarks and gluinos to explore new physics.

Community discusses potential changes to postdoc acceptance deadlines to improve opportunities.

A look into the significance of Hagedorn temperature in high-energy physics.

Scientists study high-energy neutrinos and gamma rays to learn about cosmic processes.

Exploring pion behavior reveals insights into strong interactions and early universe conditions.

Exploring heavy scalars and their production at the LHC.

An overview of turbulent magnetic fields during neutron star collisions.

New method reduces bias in AI classifiers for high-energy physics.

Recent anomalies in b quark decays may signal new physics beyond the Standard Model.

New approaches using FPGAs improve data processing for particle collision events.

Investigating the role of stellar-mass black holes in high-energy emissions from AGNs.

Researching particle behavior during heavy-ion collisions and the freeze-out process.

New method speeds up particle cloud generation while preserving accuracy.

Scientists study hard partons to understand particle interactions in quark-gluon plasma.