Latest Articles for High-energy Physics

Examining the effects of chirality in plasma under magnetic fields.

Study reveals patterns in X-ray emissions from blazars Mrk 421 and 1ES 1959+650.

New methods improve understanding of particle behavior in high-energy collisions.

Explore the role of charm mesons in hadronic gas after heavy-ion collisions.

Researchers study mysterious gamma-ray sources to find links to radio pulsars.

The HL-LHC aims to gather data to study the Higgs boson in detail.

Researchers investigate complex processes behind triple charmonium particle production.

Researchers search for lepton-flavour violation in particle collisions at a major facility.

Hybrid mesons could reshape our understanding of particle interactions.

Study examines how system size impacts phase transitions in high-energy physics.

This study reveals how magnetic fields affect heavy quark dynamics in quark-gluon plasma.

Scientists study quark matter's behavior under extreme conditions and the role of Debye mass.

Researchers analyze jet suppression to understand particle collisions and quark-gluon plasma.

This study investigates how heavy quarks lose energy in quark-gluon plasma.

Examining the intriguing nature and implications of the Higgs field.

LHCb collaboration enhances optical photon simulation using GPUs for efficient analysis.

Explore the role of pions in nuclear and particle physics.

CERN's SPS unveils experiments to deepen our knowledge of heavy-ion collisions and matter's behavior.

A look into the role of electrons and photons in cosmic radiation.

This article examines tau lepton polarization during deep inelastic scattering with nuclear targets.

New methods improve data analysis efficiency for LHC scientists.

Researchers enhance electron acceleration using new laser techniques.

Study reveals critical findings about particle interactions and resonances using lattice QCD.

Exploring how particles behave in high-energy collisions using propagators.

Analyzing meson decay to muon pairs for deeper physics understanding.

New methods improve the study of lepton magnetic moments at high energy collisions.

Recent findings suggest possible QGP conditions in high-energy proton collisions.

Researchers investigate neutrino emissions from bright Seyfert galaxies using IceCube Observatory data.

Researching the rapid X-ray variability in the binary star system LS I +61 303.

Research examines how mesons react in hot, magnetized environments.

Investigating photon interactions with new detectors for deeper insights.

Research focuses on new particles to deepen our understanding of the universe.

Researching electric currents from particle collisions in magnetic fields.

Research uncovers potential TeV halos around specific pulsars, shedding light on their energy dynamics.

This study explores elastic and inelastic scattering in quark-gluon plasma.

A new method enhances efficiency in preparing ground states using quantum simulators.

Exploring the role of heavy fermions in particle physics and effective actions.

Investigating rare particle interactions at the Compact Linear Collider.

Innovative techniques improve data extraction in high-energy physics experiments.

Enhancing accuracy in particle decay simulations is essential for particle physics research.