Latest Articles for Particle Physics

Recent signals from NANOGrav may reveal new information about dark matter and gravitational waves.

A look into the complexities of non-leptonic decays and their theoretical implications.

Scientists investigate elusive particles to deepen our understanding of the universe.

Examining how QED corrections impact particle decays and lepton interactions.

Scientists reveal new findings on top quarks and their interactions at the LHC.

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

Researchers study photon interactions to uncover new physics in heavy-ion collisions.

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

Researchers investigate hyperon polarization's origins in high-energy particle collisions.

RDSim provides rapid simulations of radio emissions from air showers.

Scientists investigate dark matter interactions using advanced detection methods.

Study reveals effects of interactions on particle flow in a Bose-Hubbard chain.

Examining warm dark matter's role in cosmic structure and formation.

Exploring the role of pseudo-Nambu-Goldstone bosons in dark matter.

Insights into tau lepton decays and their significance in particle physics.

A fresh approach reveals insights into hadron structure via Compton amplitude analysis.

Researchers search for tiny charged particles that may hold dark matter secrets.

Nuclear PDFs are crucial for understanding particle interactions in colliders.

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

Researchers investigate rare Higgs boson decays for insights into particle physics.

New methods enhance understanding of excited states in quantum systems.

A study of neutron star mergers and their unusual gamma-ray emissions.

Recent measurements at LHCb examine lepton flavors for potential new physics.

New techniques aim to improve measurements of bottom quark interactions at future experiments.

Study reveals dynamics of heavy quarks and jets in the Glasma.

A look into the Rasnik system's role in precision alignment for particle physics.

Researchers investigate complex processes behind triple charmonium particle production.

Examining the implications of gamma rays and neutrinos from SN 2023ixf.

Exploring how cosmic rays create gamma rays in the Sun's atmosphere.

A look at the superconformal index and its significance in gauge theories.

Examining the links between the Higgs boson, inflation, and dark matter in our universe.

Exploring the dynamics of the Earth’s ring current and its effects on space weather.

A look into CE NS and its implications in nuclear and particle physics.

Examining the interactions and properties of dark matter in our universe.

Research reveals a new phase of superfluidity in topological bosons within unique band structures.

Research reveals vital neutrino data from core-collapse supernovae simulations.

Investigating the QCD axion's role in dark matter and cosmology.

Exploring the role of ghost propagators in phase transitions of particle physics.

Belle II explores lepton universality and searches for new particles.

The ITS3 upgrade will enhance particle tracking and data collection at CERN.