Latest Articles for Particle Physics

Examining the significance of dynamical gluon mass in high-energy physics.

Introducing CaloDiffusion for quick, high-quality calorimeter simulations in particle physics.

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

Learn about solar neutrinos and their role in understanding the sun and particle physics.

This research reveals insights into neutron-proton scattering and their interactions within the atomic nucleus.

A look into hadron collisions and inelastic events in particle physics.

Study measures particle interactions across specific energy levels.

Researchers investigate symmergent gravity and its implications for our understanding of the cosmos.

A fresh model addresses fermion masses and cosmic mysteries.

Cosmic rays reveal key insights about our universe and its high-energy processes.

Research reveals exotic properties of double-gluon charmonium hybrid states in particle physics.

Investigating how triplet spheres pack in confined spaces using computer simulations.

Research on Quark-Gluon Plasma reveals complex behaviors through kinetic theory and hydrodynamics.

Ongoing experiments aim to locate the elusive QCD critical point in particle physics.

This research focuses on axions and their role in dark matter through lattice QCD.

A look into W boson mass discrepancies and the NMSSM model.

A look at how form factors and vacuum polarization affect particle interactions.

Scientists investigated magnetic monopoles using data from the Large Hadron Collider.

Scientists use particle collisions to measure the Higgs boson mass accurately.

Recent findings on W boson mass challenge existing theories and explore new physics models.

A high-purity germanium detector improves data collection in particle physics experiments.

Exploring the behavior of charged particles around black holes with a magnetic field.

An examination of the localization function's effectiveness in understanding nucleon behavior.

Exploring fermion dark matter and the elusive FIMPs in the universe.

Research reveals discrepancies in particle collision models and the role of radiation.

This article looks into light spin-1 bosons and their significance in particle physics.

Investigating rare particle interactions at the Compact Linear Collider.

Researchers study quark-gluon plasma using higher-dimensional gravity models.

Exploring how neutrino interactions with tritium can reveal secrets of the early universe.

Examining how scalar fields influence the universe's expansion and early conditions.

Research into electric dipole moments reveals new insights about the universe's structure.

A look into new findings about Higgs bosons and dark matter.

Recent findings from the STAR experiment shed light on quark-gluon plasma properties.

Studying ultraperipheral collisions reveals the structure of protons and nuclei through photon interactions.

Examining the significance of long-lived particles in particle physics using the MATHUSLA detector.

Scientists propose new theories to explain mysteries in particle physics and the universe.

Research on dark photons could explain magnetic anomalies in particle physics.

Recent studies suggest lepton behavior may not align with established physics models.

Metalenses improve light collection for cameras, sensors, and medical imaging.

Researchers seek new particles to answer fundamental questions in particle physics.