Latest Articles for Particle Physics

Axions might explain dark matter, offering insights into the universe's formation.

A look into the peculiar states of particles and their interactions.

New studies enhance knowledge of quark-gluon plasma and QCD phase transitions.

Examining the Higgs boson's role in early universe expansion through unimodular gravity.

Scientists reveal surprising baryon production patterns at LHC, challenging existing models.

This study examines how deuteron structure affects bremsstrahlung photon emission.

Researchers investigated charmonium states, aiming to find new processes in specific energy ranges.

A look into double beta decay and its significance in nuclear physics.

This article discusses how matrix models aid in grasping open-closed string duality.

Researchers investigate antinuclei to uncover mysteries of dark matter and cosmic rays.

This study enhances our grasp of hadronic interactions in Quantum Chromodynamics.

Investigating scalar particles decaying into Higgs bosons through high-energy collisions.

New insights into particle interactions using Standard Model Effective Field Theory.

Research on ordinary muon capture advances understanding of nuclear decay processes.

A study examining non-resonant Higgs boson pairs and their interactions.

A look into the significance of semileptonic decays in particle physics.

Research sheds light on how pion mass impacts particle interactions.

A deep dive into continuum states and their interactions in quantum physics.

A look at electron spin and its effects in quantum mechanics.

The VELO Upgrade enhances precision and data collection at CERN's LHCb detector.

Research examines how solar energetic particles vary in path lengths due to magnetic turbulence.

Researchers improve jet tagging using an efficient Mixer Network method.

Explore how fermionic tensor networks deepen our knowledge of quantum systems and particle interactions.

Explore the significance of parton showers in high-energy particle collisions.

Superoscillations reveal potential connections in quantum theory and gravity applications.

Researching axions enhances our understanding of quark matter and dark matter.

Exploring continuous spin fields and their implications in theoretical physics.

This study uses Neural Operators to analyze relationships in scattering amplitudes.

A new machine learning method improves particle event analysis in high-energy physics.

Timepix4 chip improves timing resolution for particle detection in various fields.

A look into models explaining neutrino masses and lepton number violation.

Hyperon decays provide insights into particle interactions and potential new physics.

Combining generative models and maximum likelihood estimation enhances detector calibration precision.

Research sheds light on hyperon polarization during high-energy collisions.

Research reveals significant findings about pentaquarks and their resonance states.

A look into eight-dimensional gauge theory and its implications in particle physics.

An overview of special geometry and its role in quantum field theories.

A look into how dark matter interacts within white dwarfs.

Exploring how axion clouds generate detectable gravitational waves near black holes.

Automatic feature extraction transforms data analysis at particle colliders.