Latest Articles for Particle Physics

New techniques improve predictions in electron scattering by charged particles.

This study reveals how environment affects particle behavior in supernova remnants.

Investigating the dynamics and properties of quark-gluon plasma in particle collisions.

Research on gamma rays from the Sun reveals complex interactions with cosmic rays.

Examining the role of diffractive processes in particle physics.

This article explores the relationship between matrix quantum mechanics and tensor networks in physics.

Investigating how Yukawa couplings impact neutrino masses and lepton flavor violation.

Exploring how magnetic fields affect neutrino behavior and coherence.

Scientists study nucleons to learn about their internal composition and behavior.

A look into how graviton scattering reveals insights about gravity's quantum nature.

This study examines the equation of state for nuclear matter in heavy-ion collisions.

A look into baryons and their properties through spectroscopy techniques.

LAPPDs offer fast and precise photon detection for various scientific applications.

An overview of techniques and findings related to Higgs boson production.

The Nelson-Barr model offers insights into the strong CP problem and matter-antimatter asymmetry.

Learn how trigger systems filter and manage data in particle physics experiments.

A look into the properties and significance of triply heavy baryons.

Examining hybrid inflation and its role in the universe's early expansion.

Research reveals insights on proton behavior during high-energy collisions.

SNO+ helps scientists study solar neutrinos from the Sun's core.

An exploration of twist-3 GPDs and their role in proton structure.

A new method combines soft and hard particle interactions for deeper physics insights.

Research into meson decays at Belle II uncovers fundamental physics insights.

Scientists study pentaquarks, unique particles made of five quarks, to learn about their properties.

Examining the dual view of the Standard Model and its implications.

Research reveals crucial details about particle decay processes and their implications.

A look into supergravity theories and their relevance in modern physics.

This article explores how scalar particles are produced and influenced by various forces in stars.

Research sheds light on rare decay modes of charmonium particles.

A look into the complexities of evaluating Feynman integrals in particle scattering.

Discover how timescales enhance the understanding of physics through hands-on learning.

Exploring the impact of instabilities on particle acceleration in astrophysical shocks.

An overview of how graphical functions assist in understanding particle interactions.

Understanding phase conventions is vital for clarity in hadron physics research.

This piece examines how nucleon behavior changes when in a nuclear environment.

A new machine learning approach improves data quality monitoring in particle physics.

An overview of nuclear matter and the properties of neutron stars.

Scientists study neutrinos and polarized electrons to explore time reversal symmetry violation.

Studying cosmic rays reveals complexities in distinguishing between particle types.

Researchers study light scalars and pseudoscalars to address key questions in physics.