Latest Articles for Nuclear Physics

This research reveals insights into neutron-proton scattering and their interactions within the atomic nucleus.

Research reveals important energy differences in atomic nuclei with advanced modeling techniques.

Research on Quark-Gluon Plasma reveals complex behaviors through kinetic theory and hydrodynamics.

Research on thorium's isomeric state could lead to advancements in atomic clocks.

An examination of the localization function's effectiveness in understanding nucleon behavior.

Recent findings from the STAR experiment shed light on quark-gluon plasma properties.

Studying ultraperipheral collisions reveals the structure of protons and nuclei through photon interactions.

Study reveals insights into oxygen decay processes affecting element formation in stars.

New findings on reactor antineutrinos challenge existing nuclear data predictions.

Research reveals how nucleon clustering affects neutron skin thickness in nuclei.

Research investigates unique features of Oxygen-Oxygen collisions and their significance.

Research on X17 particle reveals exciting insights into nuclear physics.

A study focused on quarkonium production from heavy atomic nuclei collisions.

Research reveals mesons' behavior in nuclear environments, focusing on eta and eta-prime.

A reliable timing signal improves neutron experiments at TRIGA Mainz reactor.

A look into gluons and their role in protons.

Research sheds light on hadrons and their complex interactions using innovative frameworks.

Research suggests hadrons may show complex fractal patterns, impacting our understanding of particle physics.

New experiment aims to clarify proton structure measurement issues.

Research investigates how nuclear shape impacts quark-gluon plasma in heavy-ion collisions.

A study reveals new details about two-neutrino double-beta decay.

A look into meson production methods and their role in quark arrangements.

Research on hafnium production via photoproton reactions sheds light on nuclear processes.

Discover how polarization of gluons deepens our grasp of particle physics.

Innovative foam targets could enhance proton-boron fusion energy production.

New insights into nuclear softness challenge traditional physics models.

A novel setup improves measurement of low-level radioactivity in environmental samples.

Exploring jet behavior and energy loss in heavy-ion collisions.

A novel approach improves understanding of charged particle scattering interactions.

Examining the role of fracture functions and higher-twist effects in particle interactions.

Exploring the role of gluons in forming quarkonium states in particle physics.

Examining how magnetic fields influence particle interactions through the Yukawa potential.

Research focuses on neutron interactions to understand element creation in stars.

Research on hyperons in light nuclei reveals critical interactions and behaviors.

Examining how magnetic fields and quark mass affect pion properties.

A look into nucleon behavior and forces in atomic nuclei under various conditions.

A new approach improves the analysis of nuclear collective motions and behaviors.

A look into the interactions of quarks and gluons and their significance.

An overview of neutrino-nucleus interactions and their significance in particle physics.

Examining the complex relationships between neutron stars and nuclear matter parameters.