Latest Articles for Particle Physics

A look into superstring theory's challenges and potential for unification.

Research sheds light on muon neutrino behavior in argon for future experiments.

Exploring the nature and behavior of dark matter in our universe.

Researchers target axion-like particles as clues to dark matter.

Exploring key concepts in lattice gauge theory and their implications for physics.

Exploring black holes, Hawking radiation, and their implications in quantum mechanics.

An overview of non-polynomial interactions and their impact on scalar field theories.

Research on neutrinos reveals connections to fundamental forces and interactions.

New methods aim to enhance understanding of parton distributions in protons and nuclei.

Researching particle behavior during heavy-ion collisions and the freeze-out process.

Researchers enhance data filtering in Belle II experiments using neural networks to identify relevant events.

Explore the impact of uncertainty in quantum fields and its practical applications.

Research explores the source of rising positron levels in cosmic rays and dark matter's role.

LISA's mission to reveal secrets of dark matter through gravitational waves.

A novel approach to compute six-point super gluon amplitudes in Anti-de Sitter space.

Exploring advancements in cosmic ray studies and their implications for the universe.

Examining how gravity affects ionization and particle behavior in varying spacetime contexts.

Scientists study tiny particles in air to uncover hidden forces and materials.

Scientists study hard partons to understand particle interactions in quark-gluon plasma.

Anomalies in particle behavior challenge existing theories in particle physics.

Researchers detect unexpected high-energy neutrinos from the active galaxy NGC 1068.

Investigation of how charged particles gain energy in complex magnetic environments.

Scientists investigate anomalies in particle behavior, seeking new physics theories.

Leptoquarks offer potential solutions to unresolved issues in particle physics.

Examining the connection between Parton Branching and Collins-Soper-Sterman frameworks in high-energy collisions.

Researchers address position measurement issues in particle accelerators using Wake Field Monitors.

Research on heavy-ion collisions reveals insights into baryon-rich matter and particle interactions.

Belle II investigates tau leptons to uncover new physics beyond the Standard Model.

Exploring methods to simulate complex bosonic systems using advanced quantum techniques.

Innovative approach using nuclear magnetization to identify light dark matter particles.

Research on expanding BECs reveals insights into particle creation and quantum entanglement.

Research investigates dark matter through axion-like particles in dwarf spheroidal galaxies.

Researchers study electromagnetic properties of charmed baryons, revealing complex structures.

Examining how particles emerge from high-energy proton-proton collisions.

New methods enhance speed and efficiency in analyzing particle collision data.

RDSim simulates radio waves from cosmic events to aid scientific research.

Scientists search for new Higgs particles to fill gaps in the Standard Model.

Researching the equation of state of nuclear matter through heavy ion collisions.

Researchers study neutron behavior under spin influences in high-energy collisions at RHIC.

Recent signals from NANOGrav may reveal new information about dark matter and gravitational waves.