Latest Articles for Particle Physics

This study investigates cLFV in top quark interactions using data from the LHC.

Researchers strive to detect neutrinos from rare failed supernovae events.

Exploring the detection and interaction of dark matter particles with atomic nuclei.

Research into anyons and quantum double models enhances our knowledge of quantum systems.

Research explores potential new particles to explain dark matter.

Examining the Minimal Left-Right Symmetric Model in particle physics.

New findings shed light on kaon pair behavior during particle decay.

Investigating the reheating mechanisms of neutron stars and their astrophysical implications.

A look into how magnetic fields influence particle behavior in heavy-ion collisions.

Research on baryonic vortices sheds light on matter under extreme conditions.

This research examines phases of fermionic matter influenced by interactions at finite temperature and density.

Exploring the FKM model's implications on particle behavior and phase transitions.

Examining neutron decay reveals insights into particle interactions and potential new physics.

Vortex states offer fresh insights into particle interactions and proton behavior.

A tutorial for advanced students on analyzing LHC particle physics data.

Exploring new quantum methods to tackle lattice gauge theories' challenges.

Investigating the extreme conditions of quark-gluon plasma through heavy-ion collisions.

BHAC-QGP simulation tool enhances understanding of heavy-ion collisions and quark-gluon plasma.

This study investigates light particles that might decay into jets using ATLAS data.

Discover how nuclear shadowing affects particle interactions in high-energy physics.

Recent measurements of cosmic-ray muons enhance understanding of particle physics and neutrino behavior.

Examining Fermi liquids near critical points reveals complex interactions and new dynamics.

Research reveals potential pathways for understanding new physics through cLFV.

Examining the role of non-Abelian anyons in future quantum technologies.

Examining the link between gravitational waves and hidden sectors during cosmic phase transitions.

Researchers analyze top quark and photon interactions for insights into particle physics.

Scientists investigate lighter dark matter particles using cosmic ray interactions with gamma rays.

Investigating particle collisions to uncover fundamental physics and new phenomena.

Research on gravitational waves reveals secrets about dark matter in the early Universe.

Physicists investigate interacting fermions in holographic systems and their implications for quantum behaviors.

New insights into multiquark states using chiral quark models.

A novel technique using atom interferometry seeks precise measurement of a fundamental physics constant.

This study examines how distance affects interactions among quantum particles.

Examining GRB 221009A and its implications for high-energy astrophysics.

Research reveals key findings on cosmic rays and their behavior in space.

This article explores the decay processes and properties of the -meson.

Researchers analyze charge and baryon balance functions in proton-proton collisions.

CETASim helps researchers study particle beams in storage rings for better X-ray sources.

A look into the mysterious halo surrounding the Geminga pulsar and its implications.

This article reviews the LS-2HDM and its implications on the W-boson mass measurement.