Latest Articles for Nuclear 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.

Investigating how photons influence neutron and proton production in lead nuclei collisions.

Investigating how azimuthal anisotropy reveals conditions in proton collisions.

Heavy quarks reveal insights into matter behavior during high-energy collisions.

Researchers develop methods to study nuclear matter in compact stars.

New method improves ground-state energy calculations for odd-mass nuclei.

Exploring effective field theories and their role in nuclear physics.

Research on heavy quarks sheds light on the universe's early moments.

Scientists investigate the extreme conditions and unique matter in neutron stars.

A novel framework improves the study of glasma in heavy-ion collisions.

Researching baryon behavior in extreme conditions reveals insights into phase transitions.

Chinese Electron-ion collider aims to shed light on Lambda particle behaviors.

Research reveals how dijet production varies in proton-lead collisions based on centrality.

Study reveals how particle size affects production during high-energy collisions.

Studying how strong electromagnetic fields affect particle behavior in physics.

Examining the characteristics and differences between neutron stars and quark stars.

Investigating how energy and clustering affect nuclear phase transitions during heavy-ion collisions.

Recent findings reveal faster cooling rates for neutron stars than expected.

Examining fission processes of superheavy nuclei, focusing on level density and entropy.

Using the QLanczos algorithm to compute energy states in nuclear systems.

Researchers analyze lepton-nucleus scattering to deepen insights into nuclear interactions.

Clover detectors significantly enhance gamma ray measurement accuracy in nuclear research.

A deep dive into the unique structure and behavior of neutron star crusts.

Investigating how mass is distributed in helium nuclei.

Exploring the role of hyperons in neutron star dynamics and their interactions.

Researchers study jet production in deep inelastic scattering to test quantum chromodynamics.

New method improves accuracy of charge state measurements in nuclear physics.

Study reveals intricate details of the isoscalar giant monopole resonance in atomic nuclei.

Examining dipole strengths using gadolinium helps illuminate nuclear processes.

A look into Efimov states and their implications in nuclear physics.

Exploring nuclear matter and the role of the parity-doublet model in extreme conditions.

Research introduces a method to maintain stable spin conditions during particle storage.