Latest Articles for Particle Physics

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.

Exploring the unique properties and interactions of birefringent Dirac fermions.

New tracking method promises to improve efficiency at the Large Hadron Collider.

DASM proposes a hidden sector to explain dark matter and its interactions.

Research into Bose gases reveals complex interactions under different conditions.

Research reveals how electric fields influence heavy-flavor mesons in extreme conditions.

DAMIC-M project aims to detect light dark matter through advanced technology at LSM.

A look into how causal diamonds shape thermal perceptions in quantum mechanics.

This article explores the dynamics of particle flows in pulsar magnetospheres.

A new camera system enhances optical calibration for next-gen neutrino telescopes.

Exploring how neutron stars may help detect elusive axion particles.

CP violation helps explain the matter-antimatter imbalance in our universe.

Investigating advanced neutrino telescope designs to improve detection methods.

New research examines the connection between dark matter and gravitational waves.

This study examines how jet size influences energy loss in heavy ion collisions.

Key insights into nucleon structure and interactions through form factors.

Research provides accurate charm quark mass measurement using advanced numerical methods.

Research on tetraquark and hybrid states is revealing new aspects of particle physics.

Exploring the complex relationship between black holes and quantum mechanics.

Scientists succeed in generating neutron Airy beams, advancing particle physics study.

Exploring how cold nuclear matter alters particle production in heavy-ion collisions.

Research investigates quantum entanglement through neutral mesons and Bell's inequalities.

Researchers examine how fuzzy dark matter shapes the universe using high-redshift observations.

Research on tetraquarks challenges current understanding of quark combinations and interactions.

An overview of baryons, their electromagnetic form factors, and current research findings.

This study examines how bosons decay into mesons and the implications for particle physics.