Latest Articles for Particle Physics

A new approach improves accuracy of parton distribution functions in particle physics.

A new approach to fundamental particle interactions and dark matter.

Researchers aim to improve detection methods for light dark matter using hydrogen.

A study on detecting elusive particles linked to cosmic events.

Leptoquark models offer insights into fundamental interactions and anomalies in particle physics.

Researchers examine lepton flavor violation processes to find clues of new physics.

Scientists explore lunar detectors for enhanced dark matter detection.

Explore the significance and computational challenges of double parton distributions.

This study measures isovector charges in baryons using lattice QCD techniques.

Exploring the 3-3-1 model’s insights into fermions and dark matter.

Research highlights new methods for analyzing particle interactions in physics.

This article examines mesons' interactions with photons and effects on muon's magnetic moment.

Researchers improve techniques to analyze data for discovering new particles.

A new approach to understanding energy density and its implications in quantum systems.

This article studies how particle densities change over time in open systems.

Recent work enhances predictions about the Higgs boson decay width and its implications.

A look at non-Hermitian models and their significance in modern physics.

Scientists investigate the charged Higgs boson at the LHC for new insights.

Investigating the role of millicharged particles in dark matter's mystery.

A look into inflation models, scalar fields, and their impact on the universe.

Examining the interactions of quarks and gluons in Quantum Chromodynamics.

Researchers investigate self-modulation effects in proton bunches within plasma.

This article examines how monopolium loses energy while moving through materials.

Investigating lepton flavor violation could reveal unknown particles and forces.

Research reveals potential common origins of electrons and protons from the sun.

A new approach to quantum field theory that addresses challenges in curved spacetime, particularly de Sitter.

Exploring the complexities of fermionic systems in quantum mechanics.

Neutrinos could challenge our understanding of physics by testing CPT invariance.

Scientists propose a fresh mechanism for high-energy neutrino creation from active galactic nuclei.

Research analyzes top quark production for signs of potential new physics.

New calculations reveal insights into particle decay rates using lattice QCD.

Recent CMS findings hint at exciting possibilities beyond the standard model.

Exploring the phenomenon of particle pair creation in strong electric fields.

Research reveals the dynamics of bottomonium in extreme conditions.

Scientists study quantum entanglement and Bell inequalities using high-energy collisions at the LHC.

Examining particle behavior and correlations from high-energy particle collisions.

A look at how implicit regularization addresses infinities in particle decay calculations.

IceCube detects high-energy neutrinos, revealing insights about cosmic sources.

This study explores how neutrinos influence cosmic structure and expansion.

A look into 3D Chern-Simons theories and their significance in modern physics.