Latest Articles for Nuclear Physics

Study reveals key findings on baryon magnetic properties using lattice QCD techniques.

Analyzing charmonium production in nuclear collisions through photon interactions and nuclear effects.

Methods to estimate potentials in neutron-proton scattering interactions.

This study examines how antiprotons influence hydrogen-like ions under magnetic fields.

Exploring the role of hypernuclei in understanding atomic interactions.

Study reveals small effects of multi-parton interactions in heavy-ion collision jets.

Exploring the unique features and importance of halo nuclei in nuclear physics.

Exploring the role of quarks and parton distribution functions in high-energy physics.

Researchers reveal new findings on yrast states and transition probabilities in polonium isotopes.

This study examines how proton energy affects carbon nucleus interactions.

Research uncovers key details about neutron-rich calcium isotopes and their stability.

Exploring the impact of nuclear symmetry energy on neutron star behavior and cooling rates.

Exploring isotope production and isomeric ratios in nuclear physics.

A look into the electromagnetic properties of pseudoscalar mesons.

Research at Hall D is revealing new insights into nuclear and particle physics.

This research reveals key insights into quark-gluon plasma behavior during heavy ion collisions.

Research on Quark-Gluon Plasma reveals conditions similar to the early universe.

A look at NMR techniques for studying spin-3/2 nuclei in materials.

Research focuses on how electric and chiral charges affect light emission in QGP.

Study reveals key patterns in neodymium isotopes' magnetic dipole responses.

Researchers apply machine learning to enhance antineutrino detection in nuclear reactors.

Scientists examine light nuclei production during ultraperipheral collisions and photon interactions.

Research reveals new insights into neutron distribution in sulfur's atomic structure.

Research reveals how spectators influence particle distribution in heavy-ion collisions.

Exploring the effects of antiproton annihilation in different materials.

This article discusses dense matter and its role in neutron stars and black holes.

New measurements could reshape our knowledge of neutron stars and nuclear matter.

Research reveals how three-nucleon forces shape neutron star properties.

Exploring the unique behaviors of chirality in silver isotopes.

A new method improves efficiency in computing eigenvalues for nuclear physics.

Research aims to measure weak charge and mixing angle with high precision.

Exploring the stability of atomic nuclei through magic numbers.

Research on J/ψ production helps reveal nuclear matter behavior during heavy-ion collisions.

Research reveals how quarks and gluons behave under extreme conditions.

Examining how neutrinos scatter off thallium isotopes reveals insights into their properties.

A look into a rare nuclear decay process and its significance.

Research on hypernuclei reveals new insights into nuclear stability.

Research reveals insights into spin entanglement in two-proton emission from beryllium-8.

Nuclear PDFs are crucial for understanding quarks and gluons in atomic nuclei.

Discovering how hyperons interact in atomic nuclei provides insights into extreme matter environments.