Latest Articles for Particle Physics

Research sheds light on gluon mass generation and its implications for particle physics.

Investigating muon-electron scattering for better understanding of the muon's magnetic moment.

Advancements in QED calculations enhance the accuracy of particle physics experiments.

Researchers achieve significant measurements on neutrinos’ behavior and properties.

Exploring holomorphic functions and their significance in quantum field theory.

A new detector set to reshape energy measurement in particle physics.

Exploring the role of massless particles and the importance of symmetry in physics.

Researchers investigate light vector bosons to better understand particle physics and the universe.

Exploring polaron behavior in complex particle systems enhances our understanding of fundamental physics.

Reheating bridges the cold early universe to particle creation after inflation.

Exploring the significance of gravitational waves and pulsars in cosmic studies.

Learn about neutrinos, their oscillation, and their significance in understanding the universe.

Recent discoveries in gravitational waves enhance our understanding of cosmic events.

Exploring the impact of machine learning on phase transitions in physics.

Investigating diquarks to explain anomalies in particle physics.

JUNO aims to enhance detection of neutrinos from core-collapse supernovae.

Research on dark matter and neutrino masses through scotogenic models offers new insights.

A look into tachyon amplitudes and their implications in theoretical physics.

A more efficient way to simulate neutrino experiments is introduced.

Exploring unique behaviors of non-Hermitian Dirac materials under light.

This article explores how mirror movement affects entropy in quantum systems.

A fresh approach to the hierarchy problem in particle physics.

Exploring how dark matter connects with cosmic inflation and its implications for the universe.

Leveraging Grassmann tensor networks to simplify complex calculations in theoretical physics.

This article examines quantum vacuum energy in a rotating one-dimensional ring system.

Exploring the interactions of axions and their implications for particle physics.

A closer look at the role of soft emissions in particle collisions.

Recent findings in neutrino physics may reshape our understanding of the universe.

Research indicates possible new Higgs bosons at 95 GeV and 650 GeV.

Researchers improve particle identification during high-energy collisions using machine learning techniques.

Researchers investigate exotic tetraquarks that include strange quarks alongside charm quarks.

Researchers study particle distributions using normalized factorial moments in high-energy collisions.

Research reveals complex dynamics of tunneling and its implications in quantum mechanics.

Exploring parton distribution functions for muons in high-energy particle physics.

Research reveals distinct shape behaviors in Mo and Ru isotopes.

Research highlights the quest for cosmic ray sources and their energetic processes.

Recent findings reveal complex behavior of cosmic ray protons around the 10 TeV mark.

Discover how machine learning helps identify symmetries in physical systems.

A study of how external influences impact entanglement in Ising chains.

Research at CEPC aims to uncover insights into quantum entanglement through Higgs boson decay.