Latest Articles for Nuclear Physics

Understanding nuclear mass reveals insights into atomic nuclei behavior and stability.

Study of neutron interactions reveals crucial insights about nuclear forces and stability.

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

Study reveals lower neutron production in ionized vanadium than expected.

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

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

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.

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

Machine learning models aid in predicting the mass of atomic nuclei.

Examining the role and properties of accretion disks after neutron star collisions.

A study of neutron-rich isotopes reveals insights into nuclear structure and properties.

Researchers capture dynamic nuclear shapes using high-energy collisions, refining our understanding of nuclear structure.

Exploring the unique behavior of nuclei through wobbling motion.

New measurements shed light on neutron-deficient silver isotopes and nuclear stability.

Research advances in neutrino interactions are reshaping our understanding of fundamental physics.

Research reveals unexpected fusion behaviors in lithium and thallium interactions.

The AMoRE-pilot phase sheds light on rare decay processes and neutrino properties.

Recent observations of neutron stars enhance our understanding of nuclear symmetry energy.

New findings in small particle collisions reveal insights into fundamental physics.

Examining the vital role of neutrinos in supernova explosions.

This article examines how energy levels affect particle dynamics in heavy ion collisions.

A study reveals how tensor forces shape nuclear structure in silicon and nickel isotopes.

New experiments aim to uncover details about neutrinos and fundamental forces.

A study of quark interactions and their impact on neutron stars.

This article discusses how BW perturbation theory aids in understanding open-shell nuclei.

Examining tungsten's unique response to radiation in fusion energy applications.

Study reveals alpha particle emissions from deuterium gas and palladium electrodes.

This paper presents a fresh approach to analyzing neutrino interactions using superscaling.

Examining the conversion process for insights into fundamental physics.

Research focuses on isomeric nuclei for detecting dark matter interactions.

A deep look into the complexities of nucleon interactions and their implications.

Researchers study nucleons using lattice QCD to better grasp their interactions.

Exploring the unique fusion process using muons for energy production.

An overview of particle interactions with nuclei in nuclear physics.

This study examines Compton scattering in helium-4, revealing new insights into nucleon interactions.

Research sheds light on tunneling mechanics from excited particle states.

New study reveals insights into fission fragments through abrasion-fission reactions.

Recent findings in two-color QCD shed light on sound velocity in neutron stars.

New reaction rates enhance understanding of element formation in supernovae.