Latest Articles for Particle Physics

This article examines the role of diffuse axion background in understanding cosmic events.

Research sheds light on tunneling mechanics from excited particle states.

New study reveals insights into fission fragments through abrasion-fission reactions.

A fresh look at quantum mechanics through the lens of relational events.

Research unveils crucial findings on particle behavior in high-energy collisions.

This study examines how the Delta particle transitions into a nucleon through electromagnetic interactions.

A new software tool improves the study of parton densities in particle physics.

New theories are essential to address gaps in our understanding of fundamental particles.

A look into dark energy and dark matter's roles in the cosmos.

Investigating the connection between cosmic strings and axions in dark matter research.

CP violation in B decays reveals gaps in modern physics theories.

Majorana zero modes hold promise for quantum computing and unique properties in superconductors.

Research at ATLAS aims to identify new particles linked to supersymmetry.

Examining how DMI influences magnetic properties in iron germanium nanoparticles.

A look into starburst galaxies and the role of cosmic rays in their evolution.

Recent findings in two-color QCD shed light on sound velocity in neutron stars.

Recent studies shed light on Higgs boson connections to W and Z bosons.

Examining how fluctuating magnetic fields impact the Landau Hamiltonian's behavior in particle dynamics.

New techniques for efficient wave-packet creation in quantum simulations of particle interactions.

Exploring the relationship between gravity and quantum particles in curved spaces.

New detector designs improve antineutrino detection for safer nuclear operations.

Understanding how supernovae contribute to neutrino research and the mysteries of sterile neutrinos.

Research explores the connection between string theory and the masses of quarks.

This article examines transverse polarization in hyperons during proton-proton collisions.

Investigating particle collisions under temperature and magnetic influences.

Scientists explore dark matter's existence via innovative detector technology.

ATLAS Collaboration provides new limits on SUSY particles and dark matter implications.

Exploring the nature and detection methods of dark matter in the universe.

A study on the interplay of string theory and QCD through fermions and baryons.

A look at how new symmetries could address Standard Model anomalies.

A study on how jets lose energy in quark-gluon plasma during particle collisions.

A look into cosmic rays and their potential sources in our galaxy.

Investigating dark matter interactions using nuclear reactors offers new research opportunities.

Exploring the possible link between primordial black holes and dark matter through axion physics.

Research reveals factors affecting gamma ray emissions from blazars.

Research on axions could change our understanding of dark matter and fundamental forces.

Exploring the significance of bubbles in first-order phase transitions and their cosmic implications.

New methods improve the study of gauge theories through weak presymplectic gauge PDEs.

Researching how lasers and particles create electromagnetic showers for future physics experiments.

The CMS detector is set to improve data collection with a new calorimeter system.