Latest Articles for Particle Physics

Study reveals how direct photons shed light on extreme matter conditions.

Exploring the complex interactions of nucleons within atomic nuclei.

Study reveals charged particle dynamics around black holes using Maxwell's theory.

Examining how spin influences entropy in relativistic hydrodynamics.

New simulations provide insights into nucleon axial and pseudoscalar form factors.

Investigating a novel approach to understanding dark matter's role in the universe.

Examining how phase transitions in the universe create gravitational waves.

Improvements in energy measurement accuracy for electrons and photons at the ATLAS detector.

Researchers unveil a method to study baryon mixing and symmetry breaking accurately.

This study examines shear viscosity in hot, dense fermionic matter under rotation.

A look at coupled-cluster theory and its role in studying bosonic mixtures.

Discussion on advancements and collaborative efforts in muon research.

Investigating sterile neutrinos' roles in low-energy supernovae and their cosmic implications.

A look into how energy is shared in particle jets.

A novel method improves matching decay products to parent particles in physics.

Discover the formation and significance of secondary cosmic rays in astrophysics.

Exploring SuperWIMPs and their significance in understanding dark matter.

New models explore stability of the weak scale in high energy physics.

Research sheds light on scalar meson decays and their implications in particle physics.

Honoring a physicist's major contributions to quantum gravity and related fields.

This article explores B mesons and their decay processes through various experimental findings.

Research aims to improve muon predictions in air showers by refining simulation models.

Research highlights damped oscillations in K-mesons and their interactions.

Recent collider studies shed light on neutron properties and interactions.

DUNE experiment investigates elusive long-lived particles to advance particle physics.

TRISTAN aims to shed light on neutrino mass mysteries through advanced collider technology.

Scientists improve tracking of solar neutrinos using liquid scintillator technology.

A look at methods for measuring time spent by particles near potentials in quantum mechanics.

A study on particle behavior in high-energy nuclear physics.

A look at the development and impact of quark theory in particle physics.

Scientists study positronium for breakthroughs in medical imaging and fundamental physics.

New insights into pion photoproduction enhance understanding of nucleon interactions.

CaloShowerGAN speeds up particle simulations in detectors with high accuracy.

Researchers enhance tensor networks to better analyze quantum entanglement and gauge symmetries.

Researchers study the behavior of quark-gluon plasma in extreme conditions.

Researchers enhance data collection in heavy ion physics experiments.

Exploring the impact of quantum computing on simulating particle interactions in QCD.

Research on mesons helps reveal fundamental forces through semileptonic decays.

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.