Latest Articles for Particle Physics

Exploring momentum behavior of particles at interfaces in quantum field theory.

Unexpected changes in Earth's atmosphere correlate with planetary positions, challenging scientific understanding.

Exploring how new particles affect the Drell-Yan process in particle physics.

Research reveals precise decay constants of D mesons, enhancing our grasp of particle interactions.

Exploring how collisions reveal protons' inner structure through photon production.

Researchers investigate the role of sterile neutrinos in particle physics.

A look into the majoron and its implications for dark matter and cosmology.

Researching the implications of multiple Higgs boson production in particle physics.

Scientists detect top quark pairs in proton-lead collisions at the LHC.

Researching strange hadrons to improve understanding of particle collisions and interactions.

This study examines how gravitational waves might influence neutrino oscillations.

This article examines kaon decays and their role in particle physics.

Researchers analyze how tracer particles behave in fast-moving Bose scalar fields.

Solar neutrinos provide vital clues about the sun and fundamental particles.

Scientists investigate axions and their role in dark matter through innovative detection methods.

A look at mesons, diquarks, and their importance in understanding particle interactions.

HAWC Observatory enhances gamma-ray detection with new algorithms and improved sensitivity.

Exploring how machine learning improves particle physics data analysis.

Investigating charged Higgs bosons to expand our knowledge of particle physics.

Researchers delve into flavor singlets within the Composite Higgs Model, revealing complex particle interactions.

Exploring the links between 3D bulk theories and 2D supersymmetric models.

Examining the link between dark matter and the imbalance of matter and antimatter.

This article examines how anisotropic plasma influences heavy quarkonium formation.

An overview of new findings in string theory and their implications for quantum field theories.

RELICS investigates neutrinos using liquid xenon to reveal their elusive characteristics.

An analysis of energy-momentum tensor dynamics in scalar Yukawa interactions.

Exploring how leptogenesis and gravitational waves impact our understanding of the universe.

A new perspective on axial symmetry's role in quantum systems.

This study examines electric currents in QCD influenced by magnetic fields.

This article explores modular symmetry's role in advancing inflation models in cosmology.

Examining the role of soft quarks in Higgs boson production at particle colliders.

Examining baryons' properties and their role in atomic structure.

Study reveals insights into particle reactions at various energy levels.

This study explores how rotation influences phase transitions in quark-gluon plasma.

Research sheds light on nucleons using lattice quantum chromodynamics and generalized parton distributions.

A look at dark matter and the GNMSSM's role in understanding it.

This study investigates heavy quarkonia behavior under thermal conditions in a quark-gluon plasma.

Researchers develop HNLCalc to study heavy neutral leptons and their significance in particle physics.

This article discusses improving electron injection efficiency at BESSY II through machine learning techniques.

Exploring soliton behaviors in two-dimensional fermionic superfluids and their implications.