Latest Articles for Particle Physics

Investigating how teleparallel gravity and Skyrmions reshape our view of black holes.

Recent experiments suggest new physics beyond the standard model.

New approaches simplify the study of complex high-spin particles and their interactions.

A look into the connection between particles and their implications in quantum mechanics.

HeRALD aims to find light dark matter using superfluid helium technology.

Discover how axion stars might emit light in our galaxy.

Recent findings suggest a possible light charged Higgs boson in particle decays.

Research on axions in neutron stars sheds light on dark matter.

New research at Yemilab aims to clarify solar neutrino behavior.

Studying heavy mesons reveals important information about matter and fundamental forces.

CERN's SPS unveils experiments to deepen our knowledge of heavy-ion collisions and matter's behavior.

Exploring the significance of Higgs boson pairs in particle physics.

Research explores the effects of Lorentz invariance violation on particle interactions.

Investigating phase transitions in quantum systems for deeper insights into particle physics.

Exploring the significance of pions in the interactions of fundamental particles.

Scientists investigate new particles and interactions in charged-lepton flavour violation.

Scientists investigate a newly discovered particle's structure and interactions.

A look at how mass arises using the Higgs Mechanism and Catastrophe Theory.

Scientists aim to identify Glashow resonance in cosmic neutrinos using advanced detection methods.

This article examines the role of light sterile neutrinos in the early universe.

Investigating how minimal length affects space, time, and particle interactions.

New measurements of W-boson mass challenge existing theories and open up research on new physics.

Study of stability in 4D SCFTs under marginal deformations reveals chaotic dynamics.

Examining how changes in mass influence particle spin in high-energy physics.

A look into gauge theories and anomalous dimensions in particle physics.

Recent findings on gravitational waves may reveal the role of heavy QCD axions.

A look into tetraquarks and their unique properties in the charm sector.

Researching heavy quark behavior in heavy-ion collisions for insights into matter properties.

Scientists study neutrino oscillation and the impact of decoherence effects.

Examining how particles gain mass without breaking symmetries.

Exploring how supersymmetry shapes the universe through various phases.

Investigating the Migdal effect and its impact on neutrino-nucleus interactions.

This study explores nucleon-pion interactions using advanced lattice QCD techniques.

Investigating how disorder and coupling affect particle behavior in quantum mechanics.

New insights into thermal conductivity in quark-gluon plasma and its impact.

Discover the unique properties and behaviors of neutrinos in particle physics.

New Few-Degree Calorimeter aims to improve gluon studies at the EIC.

Learn how researchers simulate quantum circuits with the help of special gates.

GRANDProto300 aims to enhance our grasp of ultra-high-energy cosmic rays.

Examining how moduli fields affect particle masses in theoretical physics.