Latest Articles for Particle Physics

Belle II results suggest potential new physics beyond current theories.

Investigating the counterintuitive phenomenon of quantum backflow in particle behavior.

Research highlights unusual hadron states and their interactions in particle physics.

New POWHEG generator enhances deep inelastic scattering simulations for particle physics research.

HIBEAM-NNBAR experiment investigates matter-antimatter imbalance through neutron behavior.

Exploring helicity's role in particle movement and its potential technological applications.

Analyzing the effects of polarized neutrons and weak nuclear interactions.

This study examines the delayed jets observed in tidal disruption events and their connection to neutrinos.

CMS upgrades enhance detection capabilities for upcoming particle collision phases.

New experiments aim to study the muonium-to-antimuonium transition and its behaviors.

Examining fragmentation functions and sum rules in high-energy particle collisions.

Exploring the significance of CP violation in understanding matter and antimatter.

Exploring the two-worlds interpretation and its implications for quantum behavior.

Cherenkov Telescope Array and KM3NeT will analyze gamma rays and neutrinos together.

A look into exotic hadrons and their unique configurations in particle physics.

Researchers study jet production in deep inelastic scattering to test quantum chromodynamics.

Examining the decay processes of charmed baryons to understand fundamental forces.

BESIII reveals new insights into light mesons and their interactions through precise data collection.

New research uncovers how galaxy clusters contribute to neutrinos and gamma-rays.

Explore the role of electric dipole moments and their significance in particle behavior.

An overview of methods in quantum field theories and implications for supersymmetry.

Investigating the role of axion-like particles in dark matter structures.

Fermi-LAT data reveals no signs of dark matter gamma-ray lines.

Research advances in Higgs boson production and its interactions with gluons.

New tracking method improves neutrino research using scintillating fibres and SPAD sensors.

Recent findings challenge existing theories in particle physics, hinting at new particles.

A look into dipole orientation effects on particle interactions at high energies.

A look into QED effects on semi-leptonic decay processes and their measurements.

A close look at heavy WIMPs and their role in dark matter research.

This theory combines string and quantum field approaches to better understand gravity.

Exploring recent anomalies in particle physics and their implications for new discoveries.

New methods enhance understanding of soft theorem in QCD up to three loops.

Study reveals crucial insights into hosing effects in plasma for particle accelerators.

An overview of meson decays and their significance in particle physics.

This article explores the Heavy Quark Effective Theory and its applications in particle physics.

Weakhub enhances our knowledge of neutrino interactions in cosmic events.

Study reveals new insights into particle formation in powerful galactic centers.

Exploring the role of neutrinos in shaping the universe.

Axions may offer crucial insights into dark matter and fundamental particle interactions.

Exploring the interaction of axions with photons and implications for dark matter.