Latest Articles for Particle Physics

Researchers study Majorana zero modes for advanced quantum computing applications.

A recent weight shift in the W boson challenges existing particle physics models.

This article discusses new findings on tetraquarks and their significance in particle physics.

JUNO employs new software tools to streamline neutrino research and data analysis.

CERN scientists measure interactions between top and bottom quarks, challenging existing theories.

A study on parafermion zero modes in superconducting hybrid structures and their technological significance.

New measurements reveal insights into particle interactions and states.

Researchers enhance understanding of exotic hadrons through advanced scattering analysis.

POEMMA aims to study cosmic rays and neutrinos from powerful cosmic events.

Researchers enhance muon detection efficiency using innovative scintillation strip technology.

Examining the future challenges of event generators in high-energy physics.

Deep learning methods improve particle identification and data analysis at the LHC.

Research on muon behavior reveals significant differences from theoretical predictions.

Researchers achieve consistent measurements for scintillation yield in xenon gas, aiding particle detection.

This study confirms the equivalence of Warsaw and SILH bases in particle interactions.

Research into charmonium reveals new resonances and interactions in particle physics.

Researchers study charmonium using lattice QCD to uncover new particle resonances.

The PICOLON experiment aims to detect dark matter using high-purity crystals.

Researching neutrino mass through models and symmetry reveals important physics connections.

Research at Belle II sheds light on elusive axion-like particles.

Research reveals key interactions of particles at the Large Hadron Collider.

Exploring updates in muon behavior and the Hidden Local Symmetry model.

A new method enhances efficiency in particle physics research.

A new framework helps classify unique states of matter in quantum physics.

Research unveils new excited states in pentaquarks, challenging existing particle physics models.

MicroBooNE releases neutrino interaction data sets to foster collaboration and innovation.

CP violation reveals secrets about matter and antimatter imbalance.

Investigating UHE photons and their complex interactions with the Sun's magnetic field.

A look at the complexity of neutron stars and QCD matter.

Examining how gravitational interactions create raritrons during the universe's reheating phase.

Exploring key factors in compound nucleus formation during heavy-ion collisions.

An overview of top quark pair production and its implications in particle physics.

Examining different models of nucleon interactions enhances understanding of nuclear physics.

Explore the link between atomic decay and a thought experiment with a cat.

This article examines how bosons interact with reservoirs through squeezing and driving techniques.

Researchers examine B-meson decays to deepen our grasp of particle interactions.

Examining the effects of magnetic fields on quarks and gluons in finite volumes.

A look into how black holes can extract energy from waves.

Research reveals new understanding of non-invertible symmetries in topological quantum field theories.

Rhenium decay offers insights into the elusive mass of neutrinos.