Latest Articles for Particle Physics

Research into gravitational waves may provide insights into particle physics and the universe's mysteries.

Research reveals how quark mass influences meson characteristics and interactions.

Researchers investigate the elusive decay of the nuclear isomer 180mTa.

Researchers are uncovering new insights into the Higgs boson and its properties.

Explore gauge theories, symmetries, and phase transitions in modern physics.

This study merges data and models to shed light on GPDs in particle physics.

Researching nucleon resonances reveals insights into strong interactions and missing resonances.

Exploring non-reversible transformations in particle physics and their implications.

Explore the fascinating world of hypernuclei and their unique properties.

New insights into Higgs models and their role in the universe's early phases.

Researchers propose innovative methods to identify light dark matter particles.

An examination of proton structure and behavior under high-energy conditions.

Recent findings enhance our knowledge of top quarks and their interactions.

Researching the graviton mass sheds light on gravity and gravitational waves.

This study enhances reweighting factors in lattice QCD using low-mode deflation.

Learn how heavy quarks behave in quark-gluon plasma during high-energy collisions.

An overview of gapped phases and their role in quantum field theories.

New methods improve predictions for quarkonium production in high-energy collisions.

Utilizing directed acyclic graphs to improve scattering amplitude calculations in particle physics.

Investigation into the theoretical decay of protons and its implications for physics.

Exploring QCD developments through the EPOS4 framework in high-energy collisions.

Researchers aim to understand the role of quarks and gluons in nucleons.

Researching lepton pair production reveals insights into fundamental physics and early universe conditions.

Study of strange hadrons reveals insights about Quark-Gluon Plasma and early universe.

Research focuses on detecting gravitational waves using axions and advanced magnetic detectors.

Scientists investigate the unexpected gallium anomaly in neutrino detection.

Explore the fascinating interactions of neutrons and protons in scattering experiments.

Exploring the complexities of parity violation and its implications in particle physics.

Radiation mediated shocks reveal insights into powerful stellar events and element formation.

Research on ions of Holmium and Dysprosium aids understanding of neutrino mass.

Neutron decay reveals crucial insights into particle interactions and fundamental forces.

This article examines rare decays of bottom quarks and implications for fundamental physics.

Examining the processes behind gamma-ray bursts in Earth's atmosphere.

Exploring the connections between neutrinos and modified gravity in cosmic research.

Research on proton-carbon interactions sheds light on neutrino production processes.

Scientists are developing methods to study rare and forbidden decays in particle physics.

Research reveals how magnetic fields alter the behavior of pions in particle physics.

This article discusses the role of light quarks in photon production and electroweak corrections.

Scientists are using diffusion models to enhance anomaly detection in particle physics experiments.

The EIC will study quarks and gluons, revealing secrets of matter formation.