Latest Articles for Theoretical Models

A look into how energy levels of diatomic molecules are studied.

This article delves into the intriguing properties and production mechanisms of charmonium states.

New insights into charm mixing and its connection to CP violation are emerging.

This article examines the role of bottom quarks in polarized particle production at the LHC.

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

A look into DPPs and their role in selecting diverse item groups.

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

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

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

A look into the unique magnetic behaviors of kagome magnets.

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

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

Exploring the mysteries of dark matter and neutrino masses in particle physics.

Understanding the He-Be reaction is vital for stellar processes and solar neutrinos.

An overview of Grand Unified Theories and their implications in particle physics.

Exploring theoretical models to analyze properties of two-dimensional materials like graphene.

This article explores the role of seniority in nuclear interactions and recent findings.

Recent models enhance our understanding of neutrino mass and behavior.

Researching the coexistence of dark matter types offers new insights into cosmic structures.

Exploring the weak decays of heavy mesons into baryon pairs.

Learn about rare beta decay processes and their significance in nuclear physics.

Scientists investigate dark photons to uncover universe's mysteries.

A detailed look into the 331 model and its implications for quark interactions.

MATHUSLA aims to reveal dark matter and its elusive long-lived particles.

Research uncovers new energy states in potassium isotope K-40, challenging existing models.

Exploring charmonium decays reveals key information about particle interactions.

Explore the braneworld model and its implications for our universe.

A simplified overview of three-body scattering and its significance in physics.

A new model offers insights into neutrinos and lepton behavior.

A look at the X(3872) and its connection to meson interactions.

Scientists study semileptonic decays to test theories and look for new phenomena.

Examining how scalar fields influence weak interactions in baryon decays.

Examining how boundary magnetic fields influence quantum spin systems.

Scientists use the KrkNLO method for precise predictions in particle collisions.

Research investigates how electron spins affect helium-4 scattering results.

Recent research enhances calculations related to electroweak vector bosons in particle physics.

Research reveals insights into gluon distributions within hadrons through advanced methods.

Examining the ties between matter, antimatter, and dark matter in the universe.

Research aims to clarify nuclear matter behavior using heavy-ion collision data.

Research highlights magnetic dipole transitions affecting gamma spectra in nuclear collisions.