Latest Articles for Particle Physics

Recent studies improve understanding of nucleon interactions and the Standard Model.

Research reveals how light nuclei form in extreme conditions of heavy ion collisions.

This study reveals effects of gamma radiation on p-type silicon diodes with varying resistivity.

Exploring the impact of compact dimensions on Lorentz invariance and quantum electrodynamics.

Ar42's impact on experiments analyzing dark matter and neutrinos.

New algorithms enhance understanding of particle interactions through hypergraph features.

A study on meson production enhances knowledge of particle interactions.

Researchers investigate neutrinos' properties using dark matter detection experiments.

Research at the LHC uncovers vital information about b-jets and their production.

Scientists uncover the mysteries of the Universe through the study of neutrinos.

Examining the link between gravitational waves, inflation, and supergravity in the universe's early moments.

A look into crucial concepts in particle physics and their significance.

Research reveals new behaviors in staggered gauge theories through numerical simulations and self-adjoint extensions.

Recent studies reveal new insights into the behavior of pions in particle interactions.

Research on heavy-ion collisions reveals significant insights into particle dynamics and quark-gluon plasma.

New insights into nucleon structure from parton distribution functions and lattice QCD calculations.

Exploring low energy neutrinos and quasi-black holes in dark matter research.

Examining how gravity alters quantum fields reveals new insights into physics.

Research reveals insights into gluon interactions in Anti-de Sitter space.

Research reveals new details about resonances in particle physics.

Research introduces fictitious particles to address fermion sign problems in quantum physics.

This article examines how nuclear matter influences the mass of heavy mesons.

Researchers refine methods to enhance simulations of quark interactions in particle physics.

A new method improves event classification in particle physics using machine learning.

Explore the processes and insights behind high-energy particle collisions.

A look into heavy-light mesons and their decay processes in particle physics.

Researchers utilize machine learning to enhance lattice field theory calculations.

Researchers refine layouts for detecting cosmic air-showers with new methods.

Exploring spinor-helicity representations for particles in (A)dS and dS spaces.

Exploring the role of 1-jettiness in particle scattering processes.

Exploring the connection between particle entanglement and confinement in lattice gauge theories.

An overview of dyons, their properties, and the mathematics behind their interactions.

A groundbreaking tool for measuring energy and timing in particle physics experiments.

A study on exotic particles challenging current physics concepts.

Exploring the behaviors of three fermions in a confined space.

An overview of dark matter's role and its detection in our universe.

Recent findings in meson decays suggest intriguing possibilities for new physics.

Investigating braneworld models reveals new insights into gravity and particle behavior.

This research links supersymmetry to cosmic inflation, offering fresh insights into the universe's origins.

Research on neutrinos reveals new interactions and potential discoveries.