Latest Articles for Particle Physics

A proposed model aims to address key questions in particle physics.

Examining the implications of proton decay within the framework of minimal SUSY GUT.

Introducing self-improving agents for efficient particle accelerator management.

Research reveals increased production of strange hadrons in high-energy particle collisions.

Investigating the charged Higgs boson's role in dark matter interactions.

Revolutionizing the study of cosmic inflation through efficient calculation techniques.

New insights suggest dark matter may influence unusual ionization rates in the Galactic Center.

Scientists aim for better insights into particle interactions through the weak mixing angle.

Investigating primordial neutrinos sheds light on the early universe's secrets.

Exploring how thermal environments and filters impact squeezed states in quantum mechanics.

Innovations in quantum computing promise to enhance particle physics calculations through Loop-Tree Duality.

New measurements shed light on mesons and their decay processes.

Examining CP violation's role in the matter-antimatter asymmetry of the universe.

Researchers uncover unexpected origins of deuterons in cosmic rays, challenging existing theories.

An overview of neutron skin and its role in nuclear reactions and astrophysics.

A groundbreaking gamma-ray burst reveals insights into cosmic phenomena.

New insights into controlling tiny particles for various applications.

Magnetic fields are crucial in shaping galaxies and their processes.

Research sheds light on nucleon spin and its implications for particle physics.

A look at new models improving particle interaction predictions.

Exploring conformal generators on the fuzzy sphere for understanding quantum systems.

This study reveals how particle shape, temperature, and density influence depletion forces.

Research on charge radii helps refine our knowledge of nuclear properties and interactions.

Exploring the connection between baryon number violation and neutron stars impacts our view of the universe.

Researchers probe boson production with photons, revealing crucial interactions in particle physics.

Scientists aim to find elusive millicharged particles using the Super Tau Charm Facility.

Research on D-wave charmonium enhances our understanding of quark interactions.

A deep dive into nucleons, resonances, and their properties.

This study explores how particles influence fluid movement in turbulent conditions.

A look into the role of fermions in gauge theories and mass hierarchies.

Research sheds light on top quark behavior through non-commutative geometry.

Investigating dark matter's role in the universe through the 511 keV signal.

This article examines novel methods to detect elusive Higgsino dark matter.

Examining the effects of heavy ion collisions and the glasma on quarks.

This article examines how heavy quarks interact with glasma in high-energy collisions.

Investigating tachyons' role in shaping inflation and Kähler moduli.

Exploring jets to understand proton structure through deep-inelastic scattering.

This study presents a unified model for understanding hadron scattering behavior across energy levels.

Investigating dark particles through proton collisions offers insights into dark matter.

Learn how neutrinos help scientists study supernova explosions.